信息与机电工程学院

学术成果（以下信息源于科研管理系统）

学术成果：

论文

[1] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[3] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[4] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[5] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[6] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[7] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[8] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[9] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[10] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[11] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[12] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[13] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[14] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[15] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[16] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[17] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[18] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[19] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[20] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[21] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[22] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[23] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[24] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[25] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[26] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[27] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[28] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[29] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[30] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[31] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[32] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[33] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[34] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[35] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[36] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[37] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[38] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[39] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[40] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[41] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[42] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[43] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[44] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[45] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[46] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[47] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[48] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[49] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[50] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[51] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[52] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[53] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[54] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[55] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[56] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[57] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[58] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[59] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[60] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[61] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[62] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[63] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[64] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[65] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[66] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[67] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[68] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[69] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[70] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[71] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[72] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[73] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[74] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[75] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[76] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[77] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[78] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[79] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[80] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[81] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[82] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[83] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[84] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[85] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[86] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[87] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[88] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[89] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[90] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[91] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[92] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[93] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[94] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[95] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[96] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[97] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[98] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[99] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[100] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[101] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[102] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[103] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[104] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[105] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[106] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[107] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[108] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[109] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[110] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[111] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[112] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[113] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[114] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[115] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[116] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[117] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[118] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[119] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[120] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[121] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[122] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[123] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[124] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[125] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[126] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[127] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[128] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[129] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[130] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[131] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[132] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[133] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[134] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[135] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[136] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[137] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[138] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[139] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[140] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[141] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[142] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[143] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[144] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[145] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[146] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[147] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[148] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[149] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[150] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[151] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[152] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[153] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[154] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[155] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[156] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[157] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[158] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[159] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[160] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[161] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[162] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[163] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[164] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[165] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[166] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[167] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[168] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[169] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[170] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[171] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[172] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[173] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[174] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[175] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[176] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[177] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[178] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[179] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[180] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[181] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[182] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[183] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[184] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[185] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[186] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[187] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[188] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[189] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[190] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[191] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[192] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[193] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[194] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[195] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[196] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[197] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[198] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[199] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[200] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[201] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[202] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[203] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[204] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[205] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[206] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[207] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[208] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[209] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[210] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[211] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[212] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[213] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[214] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[215] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[216] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[217] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[218] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[219] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[220] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[221] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[222] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[223] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[224] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[225] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[226] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[227] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[228] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[229] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[230] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[231] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[232] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[233] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[234] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[235] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[236] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[237] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[238] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[239] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[240] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[241] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[242] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[243] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[244] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[245] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[246] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[247] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[248] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[249] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[250] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[251] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[252] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[253] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[254] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[255] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[256] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[257] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[258] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[259] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[260] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[261] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[262] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[263] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[264] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[265] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[266] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[267] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[268] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[269] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
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[271] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[272] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
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[274] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[275] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[276] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[277] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[278] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[279] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[280] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[281] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[282] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
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[284] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[285] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[286] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
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[288] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
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[290] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[291] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[292] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[293] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[294] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[295] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[296] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[297] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
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[299] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[300] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[301] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[302] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
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[306] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[307] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[308] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[309] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[310] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[311] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[312] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[313] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[314] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[315] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[316] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[317] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[318] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[319] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[320] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[321] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[322] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[323] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[324] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[325] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[326] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[327] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[328] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[329] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[330] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[331] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[332] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[333] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[334] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[335] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[336] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[337] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[338] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[339] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[340] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[341] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[342] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[343] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[344] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[345] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[346] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[347] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[348] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[349] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[350] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[351] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[352] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[353] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[354] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[355] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[356] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[357] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[358] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[359] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[360] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[361] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[362] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[363] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[364] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[365] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[366] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[367] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[368] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[369] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[370] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[371] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[372] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[373] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[374] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[375] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[376] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[377] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[378] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[379] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[380] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[381] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[382] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[383] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[384] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[385] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[386] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[387] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[388] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[389] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[390] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[391] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[392] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[393] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[394] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[395] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[396] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[397] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[398] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[399] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[400] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[401] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[402] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[403] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[404] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[405] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[406] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[407] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[408] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[409] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[410] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[411] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[412] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[413] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[414] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[415] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[416] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[417] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[418] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[419] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[420] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[421] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[422] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[423] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[424] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[425] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[426] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[427] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[428] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[429] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[430] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[431] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[432] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[433] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[434] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[435] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[436] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[437] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[438] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[439] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[440] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[441] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[442] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[443] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[444] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[445] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[446] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[447] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[448] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[449] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[450] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[451] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[452] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[453] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[454] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[455] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[456] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[457] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[458] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[459] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[460] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[461] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[462] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[463] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[464] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[465] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[466] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[467] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[468] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[469] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[470] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[471] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[472] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[473] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[474] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[475] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[476] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[477] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[478] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[479] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[480] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[481] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[482] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[483] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[484] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[485] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[486] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[487] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[488] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[489] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[490] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[491] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[492] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[493] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[494] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[495] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[496] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[497] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[498] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[499] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[500] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[501] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[502] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[503] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[504] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[505] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[506] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[507] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[508] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[509] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[510] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[511] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[512] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[513] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[514] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[515] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[516] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[517] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[518] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[519] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[520] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[521] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[522] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[523] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[524] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[525] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[526] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[527] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[528] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[529] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[530] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[531] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[532] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[533] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[534] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[535] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[536] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[537] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[538] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[539] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[540] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[541] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[542] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[543] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[544] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[545] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[546] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[547] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[548] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[549] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[550] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[551] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[552] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[553] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[554] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[555] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[556] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[557] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[558] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[559] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[560] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[561] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[562] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[563] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[564] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[565] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[566] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[567] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[568] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[569] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[570] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[571] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[572] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[573] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[574] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[575] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[576] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[577] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[578] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[579] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[580] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[581] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[582] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[583] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[584] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[585] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[586] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[587] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[588] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[589] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[590] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[591] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[592] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[593] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[594] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[595] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[596] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[597] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[598] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[599] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[600] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[601] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[602] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[603] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[604] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[605] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[606] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[607] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[608] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[609] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[610] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[611] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[612] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[613] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[614] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[615] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[616] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[617] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[618] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[619] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[620] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[621] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[622] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[623] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[624] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[625] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[626] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[627] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[628] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[629] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[630] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[631] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[632] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[633] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[634] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[635] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[636] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[637] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[638] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[639] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[640] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[641] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[642] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[643] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[644] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[645] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[646] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[647] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[648] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[649] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[650] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[651] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[652] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[653] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[654] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[655] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[656] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[657] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[658] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[659] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[660] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[661] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[662] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[663] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[664] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[665] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[666] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[667] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[668] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[669] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[670] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[671] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[672] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[673] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[674] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[675] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[676] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[677] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[678] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[679] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[680] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[681] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[682] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[683] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[684] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[685] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[686] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[687] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[688] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[689] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[690] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[691] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[692] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[693] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[694] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[695] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[696] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[697] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[698] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[699] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[700] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[701] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[702] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[703] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[704] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[705] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[706] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[707] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[708] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[709] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[710] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[711] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[712] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[713] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[714] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[715] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[716] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[717] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[718] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[719] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[720] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[721] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[722] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[723] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[724] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[725] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[726] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[727] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[728] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[729] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[730] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[731] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[732] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[733] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[734] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[735] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[736] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[737] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[738] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[739] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[740] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[741] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[742] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[743] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[744] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[745] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[746] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[747] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[748] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[749] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[750] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[751] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[752] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[753] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[754] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[755] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[756] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[757] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[758] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[759] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[760] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[761] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[762] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[763] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[764] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[765] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[766] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[767] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[768] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[769] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[770] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[771] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[772] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[773] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[774] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[775] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[776] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[777] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[778] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[779] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[780] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[781] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[782] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[783] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[784] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[785] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[786] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[787] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[788] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[789] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[790] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[791] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[792] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[793] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[794] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[795] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[796] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[797] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[798] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[799] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[800] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[801] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[802] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[803] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[804] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[805] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[806] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[807] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[808] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[809] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[810] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[811] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[812] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[813] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[814] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[815] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[816] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[817] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[818] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[819] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[820] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[821] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[822] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[823] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[824] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[825] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[826] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[827] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[828] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[829] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[830] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[831] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[832] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[833] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[834] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[835] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[836] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[837] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[838] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[839] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[840] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[841] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[842] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[843] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[844] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[845] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[846] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[847] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[848] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[849] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[850] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[851] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[852] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[853] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[854] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[855] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[856] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[857] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[858] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[859] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[860] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[861] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[862] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[863] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[864] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[865] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[866] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[867] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[868] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[869] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[870] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[871] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[872] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[873] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[874] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[875] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[876] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[877] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[878] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[879] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[880] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[881] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[882] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[883] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[884] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[885] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[886] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[887] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[888] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[889] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[890] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[891] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[892] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[893] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[894] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[895] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[896] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[897] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[898] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[899] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[900] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[901] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[902] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[903] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[904] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[905] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[906] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[907] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[908] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[909] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[910] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[911] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[912] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[913] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[914] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[915] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[916] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[917] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[918] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[919] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[920] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[921] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[922] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[923] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[924] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[925] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[926] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[927] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[928] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[929] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[930] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[931] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[932] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[933] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[934] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[935] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[936] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[937] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[938] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[939] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[940] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[941] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[942] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[943] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[944] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[945] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[946] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[947] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[948] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[949] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[950] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[951] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[952] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[953] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[954] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[955] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[956] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[957] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[958] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[959] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[960] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[961] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[962] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[963] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[964] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[965] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[966] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[967] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[968] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[969] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[970] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[971] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[972] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[973] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[974] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[975] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[976] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[977] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[978] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[979] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[980] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[981] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[982] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[983] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[984] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[985] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[986] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[987] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[988] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[989] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[990] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[991] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[992] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[993] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[994] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[995] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[996] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[997] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[998] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[999] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1000] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1001] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1002] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1003] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1004] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1005] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1006] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1007] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1008] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1009] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1010] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1011] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1012] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1013] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1014] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1015] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1016] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1017] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1018] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1019] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1020] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1021] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1022] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1023] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1024] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1025] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1026] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1027] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1028] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1029] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1030] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1031] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1032] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1033] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1034] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1035] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1036] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1037] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1038] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1039] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1040] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1041] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1042] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1043] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1044] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1045] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1046] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1047] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1048] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1049] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1050] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1051] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1052] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1053] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1054] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1055] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1056] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1057] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1058] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1059] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1060] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1061] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1062] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1063] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1064] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1065] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1066] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1067] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1068] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1069] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1070] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1071] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1072] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1073] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1074] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1075] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1076] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1077] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1078] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1079] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1080] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1081] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1082] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1083] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1084] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1085] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1086] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1087] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1088] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1089] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1090] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1091] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1092] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1093] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1094] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1095] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1096] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1097] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1098] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1099] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1100] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1101] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1102] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1103] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1104] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1105] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1106] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1107] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1108] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1109] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1110] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1111] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1112] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1113] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1114] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1115] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1116] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1117] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1118] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1119] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1120] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1121] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1122] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1123] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1124] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1125] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1126] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1127] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1128] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1129] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1130] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1131] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1132] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1133] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1134] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1135] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1136] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1137] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1138] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1139] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1140] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1141] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1142] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1143] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1144] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1145] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1146] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1147] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1148] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1149] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1150] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1151] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1152] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1153] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1154] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1155] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1156] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1157] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1158] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1159] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1160] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1161] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1162] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1163] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1164] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1165] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1166] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1167] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1168] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1169] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1170] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1171] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1172] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1173] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1174] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1175] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1176] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1177] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1178] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1179] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1180] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1181] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1182] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1183] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1184] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1185] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1186] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1187] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1188] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1189] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1190] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1191] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1192] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1193] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1194] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1195] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1196] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1197] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1198] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1199] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1200] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1201] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1202] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1203] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1204] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1205] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1206] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1207] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1208] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1209] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1210] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1211] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1212] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1213] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1214] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1215] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1216] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1217] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1218] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1219] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1220] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1221] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1222] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1223] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1224] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1225] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1226] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1227] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1228] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1229] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1230] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1231] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1232] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1233] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1234] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1235] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1236] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1237] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1238] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1239] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1240] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1241] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1242] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1243] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1244] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1245] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1246] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1247] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1248] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1249] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1250] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1251] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1252] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1253] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1254] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1255] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1256] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1257] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1258] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1259] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1260] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1261] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1262] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1263] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1264] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1265] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1266] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1267] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1268] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1269] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1270] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1271] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1272] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1273] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1274] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1275] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1276] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1277] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1278] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1279] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1280] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1281] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1282] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1283] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1284] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1285] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1286] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1287] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1288] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1289] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1290] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1291] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1292] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1293] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1294] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1295] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1296] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1297] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1298] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1299] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1300] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1301] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1302] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1303] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1304] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1305] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1306] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1307] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1308] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1309] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1310] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1311] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1312] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1313] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1314] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1315] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1316] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1317] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1318] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1319] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1320] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1321] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1322] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1323] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1324] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1325] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1326] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1327] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1328] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1329] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1330] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1331] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1332] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1333] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1334] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1335] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1336] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1337] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1338] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1339] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1340] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1341] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1342] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1343] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1344] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1345] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1346] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1347] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1348] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1349] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1350] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1351] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1352] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1353] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1354] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1355] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1356] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1357] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1358] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1359] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1360] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1361] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1362] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1363] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1364] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1365] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1366] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1367] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1368] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1369] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1370] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1371] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1372] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1373] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1374] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1375] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1376] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1377] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1378] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1379] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1380] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1381] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1382] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1383] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1384] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1385] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1386] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1387] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1388] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1389] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1390] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1391] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1392] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1393] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1394] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1395] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1396] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1397] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1398] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1399] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1400] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1401] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1402] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1403] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1404] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1405] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1406] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1407] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1408] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1409] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1410] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1411] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1412] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1413] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1414] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1415] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1416] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1417] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1418] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1419] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1420] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1421] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1422] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1423] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1424] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1425] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1426] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1427] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1428] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1429] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1430] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1431] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1432] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1433] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1434] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1435] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1436] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1437] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1438] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1439] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1440] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1441] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1442] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1443] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1444] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1445] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1446] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1447] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1448] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1449] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1450] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1451] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1452] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1453] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1454] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1455] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1456] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1457] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1458] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1459] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1460] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1461] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1462] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1463] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1464] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1465] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1466] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1467] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1468] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1469] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1470] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1471] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1472] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1473] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1474] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1475] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1476] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1477] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1478] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1479] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1480] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1481] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1482] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1483] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1484] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1485] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1486] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1487] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1488] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1489] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1490] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1491] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1492] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1493] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1494] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1495] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1496] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1497] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1498] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1499] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1500] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1501] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1502] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1503] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1504] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1505] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1506] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1507] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1508] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1509] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1510] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1511] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1512] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1513] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1514] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1515] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1516] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1517] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1518] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1519] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1520] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1521] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1522] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1523] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1524] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1525] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1526] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1527] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1528] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1529] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1530] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1531] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1532] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1533] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1534] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1535] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1536] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1537] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1538] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1539] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1540] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1541] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1542] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1543] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1544] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1545] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1546] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1547] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1548] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1549] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1550] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1551] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1552] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1553] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1554] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1555] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1556] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1557] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1558] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1559] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1560] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1561] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1562] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1563] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1564] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1565] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1566] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1567] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1568] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1569] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1570] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1571] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1572] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1573] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1574] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1575] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1576] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1577] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1578] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1579] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1580] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1581] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1582] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1583] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1584] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1585] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1586] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1587] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1588] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1589] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1590] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1591] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1592] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1593] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1594] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1595] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1596] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1597] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1598] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1599] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1600] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1601] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1602] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1603] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1604] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1605] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1606] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1607] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1608] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1609] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1610] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1611] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1612] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1613] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1614] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1615] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1616] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1617] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1618] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1619] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1620] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1621] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1622] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1623] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1624] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1625] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1626] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1627] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1628] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1629] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1630] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1631] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1632] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1633] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1634] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1635] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1636] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1637] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1638] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1639] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1640] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1641] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1642] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1643] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1644] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1645] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1646] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1647] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1648] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1649] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1650] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1651] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1652] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1653] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1654] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1655] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1656] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1657] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1658] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1659] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1660] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1661] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1662] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1663] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1664] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1665] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1666] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1667] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1668] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1669] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1670] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1671] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1672] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1673] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1674] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1675] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1676] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1677] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1678] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1679] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1680] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1681] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1682] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1683] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1684] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1685] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1686] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1687] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1688] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1689] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1690] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1691] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1692] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1693] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1694] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1695] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1696] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1697] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1698] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1699] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1700] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1701] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1702] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1703] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1704] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1705] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1706] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1707] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1708] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1709] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1710] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1711] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1712] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1713] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1714] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1715] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1716] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1717] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1718] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1719] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1720] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1721] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1722] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1723] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1724] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1725] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1726] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1727] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1728] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1729] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1730] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1731] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1732] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1733] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1734] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1735] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1736] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1737] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1738] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1739] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1740] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1741] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1742] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1743] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1744] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1745] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1746] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1747] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1748] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1749] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1750] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1751] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1752] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1753] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1754] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1755] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1756] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1757] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1758] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1759] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1760] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1761] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1762] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1763] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1764] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1765] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1766] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1767] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1768] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1769] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1770] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1771] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1772] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1773] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1774] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1775] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1776] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1777] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1778] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1779] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1780] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1781] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1782] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1783] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1784] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1785] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1786] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1787] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1788] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1789] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1790] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1791] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1792] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1793] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1794] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1795] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1796] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1797] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1798] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1799] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1800] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1801] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1802] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1803] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1804] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1805] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1806] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1807] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1808] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1809] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1810] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1811] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1812] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1813] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1814] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1815] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1816] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1817] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1818] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1819] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1820] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1821] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1822] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1823] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1824] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1825] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1826] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1827] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1828] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1829] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1830] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1831] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1832] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1833] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1834] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1835] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1836] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1837] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1838] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1839] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1840] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1841] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1842] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1843] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1844] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1845] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1846] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1847] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1848] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1849] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1850] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1851] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1852] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1853] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1854] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1855] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1856] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1857] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1858] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1859] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1860] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1861] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1862] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1863] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1864] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1865] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1866] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1867] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1868] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1869] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1870] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1871] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1872] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1873] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1874] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1875] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1876] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1877] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1878] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1879] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1880] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1881] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1882] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1883] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1884] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1885] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1886] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1887] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1888] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1889] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1890] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1891] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1892] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1893] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1894] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1895] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1896] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1897] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1898] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1899] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1900] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1901] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1902] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1903] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1904] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1905] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1906] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1907] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1908] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1909] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1910] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1911] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1912] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1913] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1914] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1915] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1916] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1917] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1918] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1919] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1920] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1921] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1922] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1923] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1924] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1925] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1926] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1927] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1928] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1929] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1930] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1931] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1932] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1933] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1934] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1935] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1936] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1937] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1938] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1939] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1940] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1941] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1942] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1943] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1944] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1945] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1946] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1947] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1948] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1949] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1950] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1951] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1952] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1953] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1954] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1955] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1956] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1957] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1958] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1959] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1960] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1961] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1962] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1963] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1964] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1965] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1966] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1967] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[1968] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1969] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1970] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1971] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1972] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1973] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1974] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1975] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1976] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1977] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1978] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1979] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1980] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1981] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1982] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1983] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[1984] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1985] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1986] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1987] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1988] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1989] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[1990] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1991] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1992] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1993] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[1994] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[1995] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[1996] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[1997] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[1998] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[1999] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2000] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2001] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2002] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2003] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2004] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2005] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2006] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2007] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2008] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2009] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2010] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2011] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2012] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2013] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2014] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2015] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2016] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2017] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2018] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2019] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2020] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2021] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2022] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2023] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2024] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2025] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2026] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2027] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2028] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2029] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2030] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2031] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2032] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2033] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2034] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2035] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2036] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2037] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2038] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2039] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2040] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2041] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2042] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2043] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2044] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2045] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2046] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2047] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2048] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2049] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2050] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2051] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2052] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2053] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2054] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2055] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2056] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2057] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2058] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2059] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2060] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2061] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2062] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2063] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2064] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2065] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2066] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2067] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2068] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2069] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2070] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2071] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2072] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2073] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2074] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2075] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2076] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2077] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2078] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2079] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2080] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2081] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2082] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2083] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2084] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2085] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2086] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2087] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2088] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2089] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2090] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2091] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2092] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2093] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2094] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2095] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2096] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2097] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2098] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2099] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2100] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2101] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2102] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2103] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2104] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2105] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2106] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2107] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2108] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2109] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2110] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2111] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2112] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2113] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2114] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2115] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2116] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2117] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2118] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2119] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2120] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2121] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2122] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2123] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2124] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2125] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2126] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2127] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2128] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2129] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2130] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2131] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2132] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2133] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2134] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2135] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2136] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2137] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2138] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2139] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2140] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2141] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2142] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2143] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2144] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2145] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2146] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2147] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2148] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2149] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2150] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2151] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2152] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2153] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2154] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2155] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2156] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2157] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2158] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2159] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2160] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2161] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2162] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2163] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2164] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2165] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2166] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2167] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2168] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2169] 何凤琴. Experimental study of mini-hydrocyclones with different vortex finder depths using Particle Imaging Velocimetry. SEPARATION AND PURIFICATION TECHNOLOGY,2020,236(116296):10.1016/j.seppur.2019.116296.
[2170] 何凤琴. Design of vinyl chloride dehydration-type hydrocyclone based on test research. The 2nd International Conference on Information Science and Engineering,2010,NO(NO):NO.
[2171] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2172] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2173] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2174] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.
[2175] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2176] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2177] 荣毅,何凤琴. 缸盖堵板焊接工艺. 上海师范大学学报,2019,48(5):485-488.
[2178] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
[2179] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2180] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2181] 何凤琴. Numerical Simulation Investigation of Vortex Finder Depth Effects on Flow Field and Performance of Desanding Mini-hydrocyclone. Journal of Marine Science and Engineering,2022,10(1600):1-16.
[2182] 何凤琴. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
[2183] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
[2184] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2185] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
[2186] 戴增辉,何凤琴. 智能农机自动导航系统应用研究. 农机化研究,2018,2018(2):202-206.

著作

[1] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[2] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[3] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[4] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[5] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[6] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[7] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[8] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[9] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[10] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[11] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[12] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[13] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[14] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[15] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[16] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[17] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[18] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[19] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[20] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[21] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[22] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[23] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[24] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[25] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[26] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[27] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[28] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[29] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[30] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[31] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[32] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[33] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[34] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[35] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[36] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[37] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[38] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[39] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[40] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[41] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[42] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[43] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[44] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[45] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[46] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[47] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[48] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[49] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[50] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[51] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[52] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[53] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[54] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[55] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[56] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[57] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[58] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[59] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[60] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[61] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[62] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[63] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[64] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[65] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[66] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[67] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[68] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[69] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[70] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[71] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[72] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[73] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[74] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[75] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[76] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[77] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[78] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[79] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[80] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[81] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[82] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[83] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[84] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[85] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[86] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[87] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[88] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[89] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[90] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
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[747] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[748] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[749] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
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[751] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[752] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[753] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[754] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[755] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[756] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[757] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[758] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[759] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[760] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[761] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[762] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[763] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[764] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[765] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[766] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[767] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[768] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[769] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[770] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[771] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[772] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[773] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[774] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[775] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[776] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[777] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[778] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[779] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[780] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[781] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[782] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[783] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[784] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[785] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[786] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[787] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[788] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[789] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[790] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[791] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[792] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[793] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[794] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[795] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[796] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[797] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[798] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[799] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[800] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[801] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[802] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[803] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[804] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[805] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[806] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[807] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[808] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[809] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[810] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[811] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[812] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[813] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[814] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[815] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[816] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[817] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[818] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[819] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[820] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[821] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[822] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[823] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[824] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[825] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[826] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[827] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[828] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[829] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[830] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[831] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[832] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[833] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[834] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[835] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[836] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[837] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[838] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[839] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[840] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[841] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[842] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[843] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[844] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[845] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[846] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[847] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[848] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[849] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[850] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[851] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[852] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[853] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[854] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[855] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[856] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[857] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[858] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[859] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[860] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[861] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[862] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[863] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[864] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[865] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[866] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[867] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[868] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[869] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[870] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[871] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[872] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[873] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[874] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[875] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[876] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[877] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[878] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[879] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[880] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[881] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[882] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[883] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[884] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[885] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[886] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[887] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[888] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[889] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[890] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[891] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[892] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[893] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[894] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[895] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[896] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[897] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[898] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[899] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[900] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[901] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[902] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[903] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[904] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[905] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[906] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[907] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[908] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[909] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[910] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[911] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[912] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[913] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[914] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[915] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[916] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[917] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[918] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[919] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[920] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[921] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[922] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[923] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[924] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[925] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[926] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[927] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[928] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[929] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[930] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[931] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[932] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[933] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[934] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[935] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[936] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[937] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[938] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[939] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[940] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[941] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[942] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[943] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[944] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[945] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[946] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[947] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[948] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[949] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[950] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[951] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[952] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[953] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[954] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[955] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[956] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[957] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[958] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[959] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[960] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[961] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[962] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[963] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[964] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[965] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[966] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[967] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[968] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[969] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.
[970] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[971] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[972] 费媛. 人工智能基础. 华东师范大学出版社, 2021.
[973] 李涛,肖胜雄. Nanogap Electrodes. WILEY-VCH GmbH, 2021.

科研项目

[1] 何凤琴.校一般科研项目:固液旋流器分离机理研究,在研.
[2] 何凤琴.国家自然科学基金（青年科学基金项目）:颗粒旋转强化废水旋流分离机理研究,结题.
[3] 何凤琴.上海市教委:汽车机油污染度在线检测技术研究,结题.
[4] 何凤琴.校一般科研项目:基于模糊控制技术的ERF减振器控制系统设计,结题.
[5] 何凤琴.校一般科研项目:EPF减振器的模糊控制技术研究,结题.
[6] 谭永红,董瑞丽,李儒琼,李光布,陈辉,谢扬球,何凤琴,徐苏明,王刚,诸葛俊贵.国家自然科学基金（面上项目）:IPMC传感器信号分析和非线性补偿,结题.

专利成果

[2] 徐苏明,何凤琴. 一种MP3播放器. 中国专利:ZL201220187974.1,2012-11-14.
[3] 何凤琴,徐苏明. 散热器. 中国专利:ZL201120506358.3,2012-07-11.
[4] 何凤琴,王丽慧,林军. 一种刀具磨损自动报警装置. 中国专利:ZL200620040062.6,2007-03-21.
[5] 林军,何凤琴,王丽慧. 一种汽车离合器打滑的监测系统. 中国专利:ZL200620040063.0,2007-03-21.
[6] 何凤琴,周显卿,曹安东,况畅,董士豪. 一种变形跟踪行李箱. 中国专利:ZL201920779772.8,2020-05-05.
[7] 何凤琴,曹安东,周显卿,翁琴,上官倩芡. 一种消防巡逻机器人. 中国专利:ZL201822114353.0,2020-02-04.
[8] 毛显源,林军,何凤琴. 一种数控刀具磨损智能检测装置. 中国专利:申请状态(申请号:201110060365.X).
[9] 孙昌佑,孙传文,何凤琴. 一种用于环面蜗杆的三维实体建模方法. 中国专利:ZL200610023387.8,2009-07-29.
[10] 林军,何凤琴. 一种自动检测汽车机油污染度的方法. 中国专利:申请状态(申请号:200710172469.3).
[11] 林军,何凤琴,王丽慧. 一种汽车离合器打滑的监测系统及检测方法. 中国专利:申请状态(申请号:200610024546.6).

基本信息

研究方向

学术成果（以下信息源于科研管理系统）

教学工作

荣誉奖励

社会兼职