何凤琴
(0)

基本信息

  • 性别:
  • 聘任技术职务:副教授
  • 学历:博士研究生毕业
  • 联系电话:57122593
  • 电子邮箱:hfq@shnu.edu.cn
  • 通讯地址:
  • 部门:信息与机电工程学院
  • 学位:工学博士学位
  • 毕业院校:华东理工大学
  • 办公地址:信机楼409

研究方向

研究方向:

1.机电一体化系统设计与研发;工业过程控制系统的设计与研发;

2. 液-固、气-固、液-液混合物机械分离技术机理研究与应用开发。

3. 人工智能技术应用研究

个人简介:博士,副教授,计算机科学与技术专业硕士导师。美国加州大学伯克利分校(2019年),英国赫特福德大学(2016年),美国戴顿大学访问学者(2014年),IET工程技术协会会员,英国皇家特许工程师。长期从事机电一体化系统设计与研发、工业过程控制系统的设计与研发及液-固、气-固、液-液混合物机械分离技术机理研究与应用开发。拟开展人工智能技术在机电系统和分离技术中的应用研究。主持和参与了多项国家自然科学基金项目、上海市自然科学基金项目及企业横向项目;在国际和国内学术期刊上发表SCI/EI论文10余篇,授权及公开发明专利10余项,参与编写教材2本。主讲《机电系统设计》、《单片机原理及应用》、《C程序设计》、《Arduino 入门》及《工程流体力学》等课程。

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. 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.
  • [2] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [3] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [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. 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.
  • [7] 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.
  • [8] 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.
  • [9] 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.
  • [10] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [11] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [12] 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.
  • [13] 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.
  • [14] 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.
  • [15] 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.
  • [16] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [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. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [19] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [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] 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.
  • [22] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [23] 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.
  • [24] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [25] 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.
  • [26] 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.
  • [27] 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.
  • [28] 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.
  • [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] 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.
  • [31] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [32] 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.
  • [33] 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.
  • [34] 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.
  • [35] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [36] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [37] 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.
  • [38] 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.
  • [39] 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.
  • [40] 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.
  • [41] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [42] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [43] 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.
  • [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] 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.
  • [46] 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.
  • [47] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [48] 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.
  • [49] 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.
  • [50] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [51] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [52] 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.
  • [53] 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.
  • [54] 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.
  • [55] 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.
  • [56] 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.
  • [57] 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.
  • [58] 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.
  • [59] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [60] 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.
  • [61] 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.
  • [62] 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.
  • [63] 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.
  • [64] 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.
  • [65] 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.
  • [66] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [67] 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.
  • [68] 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.
  • [69] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [70] 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.
  • [71] 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.
  • [72] 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.
  • [73] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [74] 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.
  • [75] 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.
  • [76] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [77] 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.
  • [78] 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.
  • [79] 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.
  • [80] 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.
  • [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. Predictive Modeling of the Performance of the Hydrocyclone with Different Cone Combination. Applied Mechanics and Materials,2012,190-191(NO):147-150.
  • [83] 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.
  • [84] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [85] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [86] 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.
  • [87] 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.
  • [88] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [89] 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.
  • [90] 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.
  • [91] 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.
  • [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] 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.
  • [94] 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.
  • [95] 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.
  • [96] 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.
  • [97] 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.
  • [98] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [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. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [102] 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.
  • [103] 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.
  • [104] 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.
  • [105] 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.
  • [106] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [107] 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.
  • [108] 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.
  • [109] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [110] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [111] 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.
  • [112] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [113] 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.
  • [114] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [115] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [116] 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.
  • [117] 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.
  • [118] 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.
  • [119] 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.
  • [120] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [121] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [122] 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.
  • [123] 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.
  • [124] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [125] 何凤琴. flow patterns in mini-hydrocyclone with different vortex finder depths. CHEMICAL ENGINEERING & TECHNOLOGY,2013,36(11):1935-1942.
  • [126] 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.
  • [127] 何凤琴. Research on kitchen waste disposal equipment and technology. Advanced Materials Research,2011,194-196(7):2127-2130.
  • [128] 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.
  • [129] 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.
  • [130] 何凤琴. Modeling on hydrocyclone separation performance by neural network. Applied Mechanics and Materials,2011,09zr1423600(105-107):185-188.
  • [131] 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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