[更新于2019-09-24]


周岭，男，汉族，副研究员、硕士生导师，流体机械部副部长，中国石油和化工行业泵及系统重点实验室秘书。江苏大学—美国圣路易斯华盛顿大学联合培养博士，江苏省优秀博士学位论文、江苏省优秀青年基金获得者。
1986年3月出生，河南南阳人。2008年7月毕业于华北水利水电学院建筑环境与设备工程专业，获学士学位；2011年6月毕业于江苏大学流体机械及工程专业，获硕士学位；2014年6月获江苏大学流体机械及工程专业博士学位，同年留校工作至今。2018年3月至2019年3月在美国圣路易斯华盛顿大学任访问****。
长期从事流体机械的研究工作，主要方向包括气固/气液/固液两相流、潜油/潜水泵水力模型优化设计、内流实验与数值模拟等。发表SCI、EI收录论文50余篇，获国家科技进步二等奖（第七）、机械工业科学技术一等奖（第二）、教育部科技成果二等奖（第一）等10余项科技奖励。
2015年入选江苏省双创博士计划，2016年入选山东省济宁市突出贡献中青年专家，2017年入选牛顿基金中英创新领军人才，2018年荣获联合国可持续发展目标青年工程师奖，入选江苏省科协青年人才托举计划、江苏省六大高峰高层次人才。
现为国际能源署泵技术咨询专家，美国机械工程师学会（ASME）会员、中国农业机械学会会员，期刊American Journal of Engineering & Applied Sciences、International Journal of Applied Engineering Research、Technology Audit and Production Reserves编委，Applied Energy、Renewable Energy、Energy Conversion & Management、Journal of Fluids Engineering、International Journal of Fluid Mechanics Research等十余个国际期刊审稿人。
一、主要研究方向
（1）高效、高扬程井用潜油/潜水泵数值仿真、优化设计与水力模型开发；
（2）多级泵压力脉动与轴向力的实验测量与调控方法研究；
（3）流体机械两相流及磨蚀磨损研究。
二、主要科研项目
（1）国家自然科学基金青年基金项目（**），主持，在研；
（2）江苏省自然科学基金优秀青年基金项目（BK**），主持，在研；
（3）中国博士后科学基金特别资助项目（2017T100331），主持，结题；
（4）江苏省自然科学基金青年基金项目（BK**），主持，结题；
（5）江苏省高校自然科学研究面上项目（15KJB570001），主持，结题；
（6）江苏省博士后科研资助计划A等项目（**A），主持，结题；
（7）国家自然科学基金面上项目（**），第二参与人，在研；
（8）国家自然科学基金面上项目（**），第三参与人，结题。
三、主要论文论著
（1）著作
[1]周岭, 施卫东, 陆伟刚. 新型井用潜水泵设计方法与试验研究, 北京: 机械工业出版社, 2015.
[2]王川，施卫东，蒋小平，周岭. 多级自吸喷灌泵，北京: 机械工业出版社, 2016.
[3]Ramesh K. Agarwal, Subhodeep Banerjee, Xiao Zhang, Zheming Zhang, Ling Zhou. Process and Reactor Level Simulations of Coal-Direct Chemical-looping Combustion, Novel Combustion Concepts for Sustainable Energy Development, 2014, Springer.
[4]袁寿其, 施卫东, 刘厚林, 等. 泵理论与技术, 北京: 机械工业出版社, 2014.（参与撰写第一章、第六章）
[5]袁寿其, 李红, 施卫东, 等. 新型喷灌装备设计理论与技术，北京: 机械工业出版社, 2011.（参与撰写第四章）
（2）期刊论文
[1]Ling Zhou, Weidong Shi*, Weigang Lu, Bo Hu, Suqing Wu. Numerical investigations and performance experiments of a deep-well centrifugal pump with different diffusers. ASME Journal of Fluids Engineering, 2012, 134(07):**–8. (SCI, IF: 1.72)
[2]Ling Zhou, Weidong Shi*, Wei Li, Ramesh Agarwal. Numerical and experimental study of axial force and hydraulic performance in a deep-well centrifugal pump with different impeller rear shroud radius. ASME Journal of Fluids Engineering, 2013, 135(10):104501 –8. (SCI, IF: 1.72)
[3]Ling Zhou, Lingjie Zhang, Weidong Shi, Ramesh Agarwal*, Wei Li. Transient Computational Fluid Dynamics/Discrete Element Method simulation of gas–solid flow in a spouted bed and its validation by high-speed imaging experiment. ASME Journal of Energy Resources Technology, 2018, 140(1): 012206-9. (SCI, IF: 2.759)
[4]Ling Zhou, Zheming Zhang, Chris Chivetta, Ramesh Agarwal*. Process simulation and validation of Chemical-Looping with Oxygen Uncoupling (CLOU) process using Cu-based oxygen carrier. Energy&Fuels, 2013, 27(11):6906–6912. (SCI, IF: 3.021)
[5]Ling Zhou*, Lingjie Zhang, Ling Bai, Weidong Shi, Wei Li, Chuan Wang*, Ramesh Agarwal. Experimental study and transient CFD/DEM simulation in a fluidized bed based on different drag models, RSC Advances, 2017, 7, 12764–12774. (SCI, IF: 3.049)
[6]Ling Zhou, Ling Bai, Wei Li, Weidong Shi*, Chuan Wang. PIV validation of different turbulence models used for numerical simulation of a centrifugal pump diffuser. Engineering Computations, 2018, 35(1), 2-17. (SCI, IF: 1.246)
[7]Ling Zhou, Weidong Shi*, Weidong Cao, Hongbin Yang. CFD investigation and PIV validation of flow field in a compact return diffuser under strong part-load conditions. Science China Technological Sciences, 2015, 58(3):405–414. (SCI, IF:2.18)
[8]Ling Zhou, Weidong Shi*, Wei Li, Ramesh Agarwal. Particle Image Velocimetry measurements and performance experiments in a compact return diffuser under different rotating speed. Experimental Techniques, 2016, 40(1):245–252. (SCI, IF:0.779)
[9]Ling Zhou, Weidong Shi*, Suqing Wu. Performance optimization in a centrifugal pump impeller by orthogonal experiment and numerical simulation. Advances in Mechanical Engineering, 2013, 5(8):1–7. (SCI, IF: 1.024)
[10]Ling Zhou, Weidong Shi*, Ling Bai, Weigang Lu, Wei Li. Numerical calculation and experimental study of axial force in a deep-well centrifugal pump. Latin American Applied Research, 2014, 44(1):105–110. (SCI, IF:1.145)
[11]Ling Zhou, Ling Bai, Weidong Shi*, Wei Li, Chuan Wang, Daoxing Ye. Numerical analysis and performance experiment of electric submersible pump with different diffuser vanes number. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2018, 40(1): 1–11. (SCI, IF:1.743)
[12]Chuan Wang, Weidong Shi, Xinkun Wang, Xiaoping Jiang, Yang Yang, Ling Zhou*. Optimal design of multistage centrifugal pump based on the combined energy loss model and computational fluid dynamics. Applied Energy, 2017, 187:10–26. (SCI, IF:8.426)
[13]Wei Li*, Ling Zhou*, Weidong Shi, Leilei Ji, Yongfei Yang, Xiaofan Zhao. PIV experiment of the unsteady flow field in mixed-flow pump under part loading condition. Experimental Thermal and Fluid Science, 2017, 83:191–199. (SCI, IF:2.616)
[14]Ling Bai, Weidong Shi, Ling Zhou*, Lingjie Zhang, Wei Li, Ramesh Agarwal*. Experimental study of transient hydrodynamics in a spouted bed of polydisperse particles. ASME Journal of Energy Resources Technology, 2018, 140(8): 082206. (SCI, IF: 2.795)
[15]Mahmoud A. El-Emam, Weidong Shi*, Ling Zhou*. CFD-DEM simulation and optimization of gas-cyclone performance with realistic macroscopic particulate matter. Advanced Powder Technology, 2019, in press. (SCI, IF: 3.250)
[16]Ling Bai, Ling Zhou*, Xiaoping Jiang*, Qinglong Pang, Daoxing Ye. Vibration in a multistage centrifugal pump under varied conditions. Shock and Vibration, 2019, **, 1-9. (SCI, IF: 1.628)
[17]Ling Bai, Ling Zhou*, Chen Han, Yong Zhu*, Weidong Shi. Numerical study of pressure fluctuation and unsteady flow in a centrifugal pump. Processes, 2019, 7(6), 354. (SCI, IF: 1.963)
[18]Xiaoping Jiang, Li Wang, Ling Zhou*, Wei Li, Chuan Wang. Transient response analysis of cantilever multistage centrifugal pump based on multi-source excitation. Journal of Low Frequency Noise, Vibration and Active Control, 2019, 1-17. (SCI, IF: 1.491)
[19]Wei Li, Xiaoping Jiang, Qinglong Pang, Ling Zhou*. Numerical simulation and performance analysis of a four-stage centrifugal pump. Advances in Mechanical Engineering, 2016, 8(10): 1–8. (SCI, IF: 1.024)
[20]Wang Li, Liu Houlin, Wang Kai, Ling Zhou*, Jiang Xiaoping*, Li Yu. Numerical simulation of the sound field of a five-stage centrifugal pump with different turbulence models. Water, 2019, 11, 1777. (SCI, IF: 2.524)
[21]Weidong Shi, Ling Zhou*, Weigang Lu, Bing Pei, Tao Lang. Numerical prediction and performance experiment in a deep-well centrifugal pump with different impeller outlet width. Chinese Journal of Mechanical Engineering, 2013, 26(1): 46–52. (SCI, IF:1.413)
[22]Weidong Shi, Ling Zhou*, Weigang Lu, Lei Xu, Wei Li. Numerical simulation and experimental study of different stages deep-well centrifugal pump. Journal of Computational and Theoretical Nanoscience, 2013, 10(12):2897–2901. (SCI, IF:1.666)
[23]Chuan Wang*, Weidong Shi, Qiaorui Si, Ling Zhou*. Numerical calculation and finite element calculation on impeller of stainless steel multistage centrifugal pump, Journal of Vibroengineering, 2014, 16(4):1723–1734. (SCI, IF:0.398)
[24]Yong Zhu, Shengnan Tang*, Lingxiao Quan, Wanlu Jiang, Ling Zhou*. Extraction method for signal effective component based on extreme-point symmetric mode decomposition and Kullback–Leibler divergence[J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2019, 41(2): 1-13. (SCI, IF:1.743)
[25]Zheming Zhang, Ling Zhou, Ramesh Agarwal. Transient simulations of spouted fluidized bed for coal-direct Chemical Looping Combustion. Energy&Fuels, 2014, 28(2): 1548–1560. (SCI, IF: 3.021)
[26]Chuan Wang, Xikun Wang, Weidong Shi*, Weigang Lu, Soon Keat Tan, Ling Zhou. Experimental investigation on impingement of a submerged circular water jet at varying impinging angles and Reynolds numbers. Experimental Thermal and Fluid Science, 2017, 89(12): 189-198. (SCI, IF:2.616)
[27]Jiageng Li, Ramesh K. Agarwal, Ling Zhou, Bolun Yang. Investigation of a bubbling fluidized bed methanation reactor by using CFD-DEM and approximate image processing method. Chemical Engineering Science, 2019, 207(2), 1107-1120. (SCI, IF:3.372)
[28]Chuan Wang, Weidong Shi, Ling Zhou, et al. Effect analysis of geometric parameters on stainless steel stamping multistage pump by experimental test and numerical calculation. Advances in Mechanical Engineering, 2013, (12):1-8. (SCI, IF: 1.024)
[29]Guangjian Zhang, Weidong Shi, Desheng Zhang, Chuan Wang, Ling Zhou. A hybrid RANS/LES model for simulating time-dependent cloud cavitating flow around a NACA66 hydrofoil. Science China Technological Sciences, 2016, 59(8): 1252-1264. (SCI, IF:2.18)
[30]Xiongfa Gao, Weidong Shi*, Ling Zhou, Desheng Zhang, Qihua Zhang. Computational fluid dynamics and experimental study of inter-stage seal clearance on submersible well pump. Advances in Mechanical Engineering, 2016, 8(2): 1-7. (SCI, IF: 0.848)
[31]Linwei Tan, Weidong Shi, Desheng Zhang, Ling Zhou, Chuan Wang. Numerical and experimental investigations of pressure fluctuations in single-channel pumps[J]. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2018, 232(4): 397-415. (SCI, IF: 1.694)
[32]Linwei Tan, Desheng Zhang, Weidong Shi*, Ling Zhou, Xiaotong Cai. Influence of volute basic circle diameter on the pressure fluctuations and flow noise of a low specific speed sewage pump. Journal of Vibroengineering, 2017, 19(5): 3779-3796. (SCI, IF:0.939)
[33]Wei Li*, Xiaofan Zhao, Weiqiang Li, Weidong Shi, Leilei Ji, Ling Zhou. Numerical prediction and performance experiment in an engine cooling water pump with different blade outlet widths. Mathematical Problems in Engineering, 2017, **, 11 pages. (SCI, IF: 1.145)
[34]Wei Li*, Leilei Ji, Weidong Shi*, Ling Zhou, Xiaoping Jiang, Yang Zhang. Fluid-structure interaction study of a mixed-flow pump impeller during startup. Engineering Computations, 2018, 35(1): 18-34. (SCI, IF: 1.246)
[35]Wei Li, Leilei Ji, Weidong Shi, Yulu Wang, Ling Zhou, Xiaoping Jiang. Vibration of Shaft System in the Mixed-Flow Pump Induced by the Rotor-Stator Interaction under Partial Load Conditions[J]. Shock and Vibration, 2018, **. (SCI, IF: 1.628)
[36]Ling Zhou, Ling Bai, Lingjie Zhang, Weidong Shi, Ramesh Agarwal*. Validation and comparison of Discrete Element Model and Two-Fluid Model for dense gas–solid flow simulation in a fluidized bed[J]. International Journal of Energy for a Clean Environment, 2019, 20(2):135–151. (EI)
[37]Ling Zhou, Weidong Shi*, Wei Li. Optimization of impeller rear shroud radius in deep-well centrifugal pump based on golden section method. Energy Education Science and Technology Part A: Energy Science and Research, 2012, 30(SI.2): 377–382. (EI)
[38]Ling Zhou, Zheming Zhang, Ramesh Agarwal*. Simulation and validation of Chemical-looping Combustion using ASPEN Plus. International Journal of Energy and Environment, 2014, 5(1):53–58.
[39]Guangjian Zhang, Weidong Shi, Ling Zhou*, et al. Effect of the maximum density ratio between liquid and vapor on cavitating simulation. American Journal of Engineering and Applied Sciences, 2015, 9(1): 119–126.
[40]Mahmoud A. El-Emam, Saad Fathallah Ahmed, Mohamed Ahmed Sabah, Soliman Nasif, Weidong Shi*, Ling Zhou*. Design and construction of a pneumatic harvesting and cleaning machine for jojoba seeds. Engineering in Agriculture, Environment and Food, 2019, in press.
[41]Xiao Zhang, Subhodeep Banerjee, Ling Zhou, Ramesh Agarwal*. Process simulation and maximization of energy output in chemical-looping combustion using ASPEN plus. International Journal of Energy and Environment, 2015, 6(2): 201–226.
[42]周岭, 施卫东*, 陆伟刚, 张丽, 王川. 深井离心泵数值模拟与试验. 农业机械学报, 2011, 42(3):69–73. (EI)
[43]周岭, 施卫东*, 陆伟刚. 基于数值模拟的深井离心泵导叶性能分析. 农业工程学报, 2011, 27(9):38–42. (EI)
[44]周岭, 施卫东*, 陆伟刚, 李辉, 裴冰. 深井离心泵内部非定常流动的压力脉动特性分析. 农业工程学报, 2011, 27(10): 44–49. (EI)
[45]周岭, 施卫东*, 陆伟刚, 许荣军, 王川. 井用潜水泵导叶的正交试验与优化设计. 排灌机械工程学报, 2011, 29(4):312–315. (EI)
[46]周岭, 施卫东*, 陆伟刚, 黄萍, 裴冰. 叶轮进口边位置对深井离心泵水力性能的影响.农业机械学报, 2012,43(3):78–82. (EI)
[47]周岭, 施卫东*, 陆伟刚, 李振同, 李伟. 深井离心泵轴向力数值预测与试验.农业机械学报, 2012, 43(7):100–103,140. (EI)
[48]施卫东, 周岭*, 陆伟刚, 张丽, 王川. 高扬程深井泵的正交试验研究与优化设计. 江苏大学学报自然科学版, 2011, 32(4): 400–404. (EI)
[49]陆伟刚, 张丽, 周岭*, 王川. 斜流式离心叶轮的轴向力计算[J]. 工程热物理学报，2011, 32(suppl.1): 9–12. (EI)
[50]周岭*, 白玲, 杨阳, 施卫东, 陆伟刚. 导叶叶片数对井用潜水泵性能的影响[J]. 农业机械学报, 2016, 47(10):78–84. (EI)
[51]周岭*, 杨阳，王伟，蒋小平，施卫东. 叶轮结构对多级离心泵性能及噪声的影响[J].水电能源科学, 2016, 34(11): 178–181.
[52]周岭*，杨阳，施卫东，陆伟刚，叶道星. 导叶出口边位置对深井离心泵性能的影响[J]. 排灌机械工程学报，2016, 34(12): 1028-1034.
[53]周岭*，侯云鹤，王伟，杨阳. 基于LMS Virtual.Lab的多级离心泵数值模态分析[J]. 流体机械，2017，45(6): 21-25.
[54]施卫东，张铃杰，周岭，陆伟刚. 基于DEM的流化床气固两相流瞬态数值模拟与验证[J]. 排灌机械工程学报, 2017, 35(5): 404-409.
[55]施卫东, 杨阳, 周岭, 等. 潜水泵缩比模型的相似性验证与内部流场分析[J]. 农业工程学报, 2017, 33(3):50-57.
（3）会议论文
[1]Wei Li, Ramesh K. Agarwal, Leilei Ji, Enda Li, Ling Zhou. Numerical Simulation of Incipient Rotating Stall Characteristics in a Mixed-Flow Pump, AIAA Scitech, Jan 7-11, 2019, San Diego, USA.
[2]Ling Zhou, Weidong Shi, Weigang Lu. Modeling, CFD Simulation and Experiments of Electrical Submersible Pump. The 14th Asian International Conference on Fluid Machinery, Nov 10-13, 2017, Zhenjiang, China.
[3]Ling Zhou, Weidong Shi, Weigang Lu, Wei Li. Hydraulic Design, Numerical Simulation and PIV Validation of Compact Size Multistage Centrifugal Pump. 16th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery, April 10-15, 2016, Honolulu, USA. (Keynote speech)
[4]Ling Zhou, Tao Lang, Weidong Shi. Numerical simulation of different turbulence models in a compact return diffuser. ASME-JSME-KSME Joint Fluids Engineering Conference 2015(AJK2015-FED), July 26-31, 2015, Seoul, Korea.
[5]Ling Zhou, Weidong Shi, Wei Li, Ling Bai. Detached Eddy Simulation and PIV validation of the flow in a compact return diffuser. 6th International Symposium on Fluid Machinery and Fluids Engineering (ISFMFE-2014), October 22-25, 2014.
[6]Ling Zhou, Weidong Shi, Ling Bai, Weigang Lu, Wei Li. Numerical investigation of pressure fluctuation and rotor-stator interaction in a multistage centrifugal pump. ASME 2013 Fluids Engineering Division Summer Meeting (FEDSM-2013), July 7-11, 2013, Incline Village, Nevada, USA.
[7]Ling Zhou, Weigang Lu, Weidong Shi. PIV measurements in a compact return diffuser under multi-conditions. 6th International Conference on Pumps and Fans with Compressors and Wind Turbines (ICPF-2013), September 19-22, 2013, Beijing, China.
[8]Ling Zhou, Zheming Zhang, Ramesh Agarwal. Process simulation of Chemical Looping Combustion in ASPEN Plus, Twelfth Annual Conference on Carbon Capture, Utilization & Sequestration, May 13-16, 2013, Pittsburgh, Pennsylvania, USA.
[9]Weigang Lu, Ling Zhou, Weidong Shi. Unsteady flow numerical analysis of new-type deep well pump under multi-conditions. ASME 2010 Fluids Engineering Division Summer Meeting (FEDSM-2010), August 1-4, 2010, Montreal, Canada.
[10]陆伟刚, 周岭, 施卫东. 新型节能节材井用潜水泵的研究．第四届全国水力机械及其系统学术会议, 2011.09, 兰州.
[11]周岭, 陆伟刚, 施卫东. 紧凑型导叶内部流场的多工况PIV测量. 第六届全国水力机械及其系统学术会议, 2013.10, 杭州.
[12]周岭, 陆伟刚, 施卫东，李伟. 多级离心泵的优化设计与内流机理研究.全国流体机械青年学术研讨会暨亚欧青年****交流会, 2016.10, 杭州.
[13]周岭，陆伟刚，施卫东，李伟. 深井泵的优化设计与离散元模拟. 第六届气动力学与流体机械青年****研讨会, 2019.05, 杭州.
四、获奖情况
[1]施卫东，李红，王新坤，刘建瑞，范永申，朱兴业，周岭，刘俊萍，陈超，李伟. 新型低能耗多功能节水灌溉装备关键技术研究与应用. 国家科技进步二等奖，2015.12。
[2]周岭, 施卫东, 曹卫东, 王川, 李伟, 曹宇鹏, 蒋小平, 胡敬宁，白玲. 大型矿用多级泵节能降耗关键技术研究与产业化, 中国机械工业科学技术奖二等奖，2018.11。
[3]周岭, 施卫东, 欧鸣雄, 李伟, 王川, 曹宇鹏, 曹卫东, 蒋小平. 高效大功率矿用多级泵基础理论研究与工程应用, 教育部高等学校科学研究优秀成果二等奖，2018.12。
[4]施卫东，周岭，王晓晓，张启华，陆伟刚，朱军，许建强，史志华，余学军，白玲. 高效井用潜水泵基础理论研究与系列产品开发，中国机械工业科学技术奖一等奖，2014.11。
[5]潘波，李伟，周岭，施卫东，潘述怀，黄俊，乔守滨，王川，屈兵. 高扬程大功率矿用抢险多级泵关键技术研究与工程应用, 山东省科技进步二等奖，2016.12。
[6]李伟，施卫东，蒋小平，周岭，叶晓琰，曹卫东，胡敬宁，王川，张德胜，卢展雄，刘建瑞，巫建波，潘波，陆伟刚，许敏田. 基于动力学稳定性设计的多级离心泵关键技术研究及应用，教育部高等学校科学研究优秀成果二等奖，2016.12。
[7]周岭，施卫东，王川，陆伟刚，朱军. 新型多级离心泵设计方法与关键技术研究，镇江市科技进步一等奖，2014.09。
[8]施卫东，周岭，曹卫东，李伟，王川，张德胜，郎涛，陆伟刚. 新型煤矿深井用潜水泵关键技术研究与产业化，第十六届中国国际工业博览会银奖，2014.11。
[9]施卫东，李伟，周岭，杨勇飞，季磊磊，蒋小平，张德胜，张扬，赵晓凡，白玲. 特种高效涡轮驱动混流泵关键技术研究及应用，中国军民两用技术创新应用大赛银奖，2016.11.
[10]李伟，施卫东，蒋小平，周岭，黄俊，胡敬宁，张德胜，付强，叶晓琰，孔繁余. 化工流程泵结构强度与动力学特性研究及工程应用，中国石油和化学工业联合会科学技术奖二等奖，2014.12。
[11]周岭. 新型深井离心泵设计方法与试验研究，江苏省优秀博士学位论文，2015.07。
[12]周岭. 深井离心泵导叶的数值模拟和优化设计，江苏省优秀硕士学位论文，2012.06。
五、授权专利
[1]周岭，杨阳，陆伟刚，施卫东，王川，蒋小平，李伟. 一种带自排沙结构的深井泵，ZL1.4, 2018年4月17日，授权发明专利。
[2]王川，施卫东，周岭. 一种多级自吸离心泵叶轮导叶结构, ZL7.7，2016年3月23日，授权发明专利。
[3]周岭，陆伟刚，王川，蒋小平，杨阳. 一种自平衡轴向力的深井泵，ZL8.2，2016年4月6日，授权实用新型专利。
[4]周岭，杨阳，陆伟刚，施卫东，王川，蒋小平，李伟. 一种带自排沙结构的深井泵，ZL8.6, 2016年9月14日，授权实用新型专利。
[5]周岭，杨阳，陆伟刚，施卫东，李林建，韩晨，王万宏. 一种智能变频调速的高效恒功率低比速潜水泵，ZL9.7, 2019年4月16日，授权实用新型专利。
六、联系方式
Researchgate: https://www.researchgate.net/profile/Ling_Zhou12
Publons: https://publons.com/researcher/**/ling-zhou/
Email: lingzhoo@hotmail.com；lingzhou@ujs.edu.cn
联系电话：138-1547-7737。
热忱欢迎与高校、企业开展各种形式的合作研究。欢迎研究生报考，可推荐到国外知名高校联合培养。


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