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刘震卿

时间:2015-05-20 浏览次数:


刘震卿,入选国家高层次青年人才计划、湖北省楚天学者(学子)、中国博士后基金年度百人选介,副教授,博士生导师。博士毕业于日本东京大学,获日本文部科学省国费奖学金,后在东京大学任博士后,研究员。2015年后,历任英国正版365官方网站讲师、副教授;先后主持中组部万人计划青年拔尖人才项目1项,国家自然科学基金2项,主持国家重点研发项目课题1项,主持其他省部级项目3项,主持企业委托课题10余项;以第一/通讯作者发表SCI期刊38篇,平均IF:5.0Google scholar他引675次,单篇最高他引205次,以第一授权人授权国家发明专利15项,以第一授权人授权软件著作权14项,主编学术专著2部,获湖北省技术发明二等奖1(6/6),多次担任本领域重要学术会议分会场主席,30余本重要期刊审稿人,以及国家自然科学基金通讯评议人。已毕业硕士研究生13名,指导在读博士生1名,5人次获国家奖学金。



联系方式

Email: liuzhenqing@hust.edu.cn



主要研究方向

风资源评估

风力发电机振动控制

海上漂浮式风机

风浪能联合利用

龙卷风等特异风灾



教育经历

2010.10-2013.09,东京大学土木工程学院,桥梁结构研究室,土木工程专业,博士

2007.09-2010.07,湖南大学土木工程学院桥梁工程系,桥梁与隧道工程专业,硕士

2003.09-2007.07,湖南大学土木工程学院桥梁工程系,桥梁与隧道工程专业,本科



工作经历

2017.11-至今, bat365app手机版下载土木工程与力学学院建筑工程系,副教授

2015.04-2017.10 bat365app手机版下载土木工程与力学学院建筑工程系,讲师

2013.10-2015.04 东京大学土木工程学院桥梁结构研究室,研究员



科研项目

主持:

1. 中共中央组织部,国家万人计划青年拔尖人才项目,主持

2. 国家自然科学基金委员会,面上项目,考虑气流分层影响的山地低风速区风机微观选址数理研究,主持

3. 国家自然科学基金委员会,青年项目,基于谱元法CFD的龙卷风作用下列车-桥梁体系气动特性研究,主持

4. 国家重点研发计划,中日政府间合作项目,海上漂浮风机的混凝土基础结构体系及设计理论,联合主持

5. 中国博士后科学基金(一等面上),基于大涡模拟的复杂地形风场仿真,主持

6. 中国博士后科学基金(特别资助),列车桥梁体系气动特性的数值模拟研究,主持

7. 湖南大学,省重点实验室开放课题,基于大涡模拟的复杂地形风场预测,主持

8. 局部风场仿真平台研发(横向课题),主持

9. 典型地形风场特性研究(横向课题),主持

10. 基于OpenFOAM的复杂地表森林模型开发(横向课题),主持

11.基于流体载荷耦合自动化与视觉识别的技术合作(横向课题),主持

12.Linux系统平台下基于C++的风机风致动力响应分析程序研发(横向课题),主持

13.基于CFD的风机风场微尺度仿真研发(横向课题),主持

14.基于Simpack的精细化风机动力学仿真与载荷分析提取技术服务(横向课题),主持

15.风电场风资源后评估系统研究及自主PyGAOWT平台研发合作(横向课题),主持

16.风力发电机组高强螺栓连接面抗滑移系数测试(横向课题),主持

17.波浪能俘获结构设计及水动力学计算服务(横向课题),主持

18.类龙卷风涡旋式汽车空调出风口研发(横向课题),主持

19.悬索结构流场非线性算法研究(横向课题),主持

20.海上漂浮式风机变压器减振部件研制(横向课题),主持



参与:

1. 国家重点研发计划,2017YFC1500705,新型减隔震技术及其设计理论,参加

2. 国家自然科学基金委员会,重点项目,51838006,基于监测数据的结构被动振动控制系统性能研究,参加

3. 国家自然科学基金委员会,面上项目,51278191,桥梁主梁气动导纳和影响因素精细化分析的大涡模拟研究,参加

4. 国家自然科学基金委员会,面上项目,50978095,基于CFDVolterra理论的桥梁非线性气动力系统识别及应用,参加


第一/通讯作者期刊论文

注:影响因子为最新值,分区依据中科院基础版,*标注通讯作者, _ 标注指导学生

1. Zhenqing Liu*; Yiwen Cao; Bowen Yan; Xugang Hua, Zhiwen Zhu, Shuyang Cao; Numerical study of compact debris in tornadoes at different stages using large eddy simulations, Journal of Wind Engineering and Industrial Aerodynamics, 2020. (SCI, IF=4.082, 中科院2, JCRQ1)

2. Zhenqing Liu*; Yiwen Cao; Yize Wang; Jinxin Cao; Xugang Hua; Shuyang Cao; Characteristics of compact debris induced by a tornado studied using large eddy simulations, Journal of Wind Engineering and Industrial Aerodynamics, 2020, 104422. (SCI, IF=4.082, 中科院2, JCRQ1)

3. Zhenqing Liu; Yize Wang*; Xugang Hua; Hongping Zhu; Zhiwen Zhu; Optimization of wind turbine TMD under real wind distribution countering wake effects using GPU acceleration and machine learning technologies; Journal of Wind Engineering and Industrial Aerodynamics, 2020, 104436. (SCI, IF=4.082, 中科院2, JCRQ1)

4. Zhenqing Liu*; Shuyang Cao; Heping Liu; Xugang Hua; Takeshi Ishihara; Effects of Reynolds number in the range from 1.6×103 to 1.6×106 on the flow fields in tornado-like vortices by LES: A systematical study, Journal of Wind Engineering and Industrial Aerodynamics, 2020, 196: 104028. (SCI, IF=4.082, 中科院2, JCRQ1)

5. Zhenqing Liu; Jinxin Cao; Bowen Yan; Yize Wang*; Study of wind-direction effects on flow fields over two-dimensional hills using large eddy simulations, Journal of Wind Engineering and Industrial Aerodynamics, 2020, 104285. (SCI, IF=4.082, 中科院2, JCRQ1)

6. Zhenqing Liu*; Wei Wang; Yize Wang; Takeshi Ishihara; Large eddy simulations of the slope effects on the flow fields over isolated hills and ridges, Journal of Wind Engineering and Industrial Aerodynamics, 2020, 104178. (SCI, IF=4.082, 中科院2, JCRQ1)

7. Zhenqing Liu*; Heping Liu; Shuyang Cao; Numerical study of the structure and dynamics of a tornado at the sub-critical vortex breakdown stage, Journal of Wind Engineering and Industrial Aerodynamics, 2018, 177: 306-326. (SCI, IF=4.082, 中科院2, JCRQ1)

8. Zhenqing Liu; Takeshi Ishihara; Xuhui He*; Huawei Niu; LES study on the turbulent flow fields over complex terrain covered by vegetation canopy, Journal of Wind Engineering and Industrial Aerodynamics, 2016, 155: 60-73. (SCI, IF=4.082, 中科院2, JCRQ1)

9. Zhenqing Liu; Takeshi Ishihara; Takahiro Tanaka; Xuhui He*; LES study of turbulent flow fields over a smooth 3-D hill and a smooth 2-D ridge, Journal of Wind Engineering and Industrial Aerodynamics, 2016, 153: 1-12. (SCI, IF=4.082, 中科院2, JCRQ1)

10. Zhenqing Liu*; Takeshi Ishihara; Study of the effects of translation and roughness on tornado-like vortices by large-eddy simulations, Journal of Wind Engineering and Industrial Aerodynamics, 2016, 151: 1-24. (SCI, IF=4.082, 中科院2, JCRQ1)

11. Zhenqing Liu*; Takeshi Ishihara; Numerical study of turbulent flow fields and the similarity of tornado vortices using large-eddy simulations, Journal of Wind Engineering and Industrial Aerodynamics, 2015, 145: 42-60. (SCI, IF=4.082, 中科院2, JCRQ1)

12. Zhenqing Liu*; Takeshi Ishihara; A study of tornado induced mean aerodynamic forces on a gable-roofed building by the large eddy simulations, Journal of Wind Engineering and Industrial Aerodynamics, 2015, 146: 39-50. (SCI, IF=4.082, 中科院2, JCRQ1)

13. Zhenqing Liu*; Yiwen Cao; Yize Wang; Shuyang Cao; Qingshan Yang; Study of turbulence effects on flying compact debris in tornadoes at different stages, Journal of Wind Engineering and Industrial Aerodynamics, 2021, (SCI, IF=4.082, 中科院2, JCRQ1)

14. Zhenqing Liu*; Chong Zhang; Takeshi Ishihara; Numerical study of the wind loads on a cooling tower by a stationary tornado-like vortex through LES, Journal of Fluids and Structures, 2018, 81: 656-672. (SCI, IF=2.971, 中科院2, JCRQ2)

15. Zhenqing Liu, Yiwen Cao, Jinxin Cao*, Yize Wang, Shuyang Cao, Numerical study of tornado-borne debris on a low-rise building through large eddy simulation, Journal of Fluids and Structures, 2021, (SCI, IF=2.971, 中科院2, JCRQ2)

16. Yize Wang, Zhenqing Liu*, Hao Wang*, Proposal and layout optimization of a wind-wave hybrid energy system using GPU-accelerated differential evolution algorithm, Energy, 2021, (SCI, IF=7.147, 中科院1, JCRQ1)

17. Zhenqing Liu, Shuanglong Fan, Yize Wang*, Jie Peng, Genetic-algorithm-based layout optimization of an offshore wind farm under real sea bed terrain encountering an engineering cost model, Energy Conversion and Management, 2021,. (SCI, IF=9.709, 中科院Top, JCRQ1)

18. Zhenqing Liu; Yize Wang*; Xugang Hua; Numerical studies and proposal of design equations on cylindrical oscillating wave surge converters under regular waves using SPH, Energy Conversion and Management, 2020, 203: 112242. (SCI, IF=9.709, 中科院Top, JCRQ1)

19. Zhenqing Liu; Yize Wang*; Xugang Hua; Prediction and optimization of oscillating wave surge converter using machine learning techniques, Energy Conversion and Management, 2020, 210: 112677. (SCI, IF=9.709, 中科院Top, JCRQ1)

20. Zhenqing Liu*; Zheng Diao; Takeshi Ishihara; Study of the flow fields over simplified topographies with different roughness conditions using large eddy simulations, Renewable Energy, 2019, 136: 968-992. (SCI, IF=8.001, 中科院Top, JCRQ1)

21. Zhenqing Liu; Yize Wang*; Nyangi Patrice; Xugang Hua; Proposal of a novel GPU-accelerated lifetime optimization method for onshore wind turbine dampers under real wind distribution, Renewable Energy, 2020, (SCI, IF=8.001, 中科院Top, JCRQ1)

22. Yize Wang, Zhenqing Liu*, Proposal of novel analytical wake model and GPU-accelerated array optimization method for oscillating wave surge energy converter, Renewable Energy, 2021, (SCI, IF=8.001, 中科院Top, JCRQ1)

23. Zhenqing Liu*; Yiwen Cao; Yize Wang*; Wei Wang; Computer vision-based concrete crack detection using U-net fully convolutional networks, Automation in Construction, 2019, 104: 129-139. (SCI, IF=7.700,中科院Top, JCRQ1)

24. Zhenqing Liu*; Qiuming Li; Takeshi Ishihara; Numerical investigation of a swirl diffuser with a novel design using large eddy simulations, Building and Environment, 2018, 135: 124-141. (SCI, IF=6.456, 中科院Top, JCRQ1)

25. Zhenqing Liu; Weipeng Li; Lian Shen*; Yan Han; Zhiwen Zhu; Xugang Hua; Numerical study of stable stratification effects on the wind over simplified tall building models using large-eddy simulations, Building and Environment, 2021, (SCI, IF=6.456, 中科院Top, JCRQ1)

26. Zhenqing Liu; Yize Wang*; Numerical studies of submerged moored box-type floating breakwaters with different shapes of cross-sections using SPH, Coastal Engineering, 2020, 158: 103687. (SCI, IF=4.830, 中科院Top, JCRQ1)

27. Zhenqing Liu; Yize Wang*; Wei Wang; Xugang Hua; Numerical modeling and optimization of a winged box-type floating breakwater by Smoothed Particle Hydrodynamics, Ocean Engineering, 2019, 188: 106246. (SCI, IF=3.795, 中科院Top, JCRQ1)

28. Zhenqing Liu; Yize Wang*; Xugang Hua; Proposal of a novel analytical wake model and array optimization of oscillating wave surge converter using differential evolution algorithm, Ocean Engineering, 2020, 108380. (SCI, IF=3.795, 中科院Top, JCRQ1)

29. Zhenqing Liu; Yize Wang*; Numerical investigations and optimizations of typical submerged box-type floating breakwaters using SPH, Ocean Engineering, 2020, 209: 107475. (SCI, IF=3.795,中科院Top, JCRQ1)

30. Zhenqing Liu*; Jie Peng; Xugang Hua; Zhiwen Zhu; Wind farm optimization considering non-uniformly distributed turbulence intensity, Sustainable Energy Technologies and Assessments, 2020, 43, 100970. (SCI, IF=5.353, 中科院2, JCRQ2)

31. Zhenqing Liu*; Qiuming Li; Takeshi Ishihara; Jie Peng; Numerical simulations of fatigue loads on wind turbines operating in wakes, Wind Energy, 2020, 23: 1301-1316. (SCI, IF=2.730, 中科院3, JCRQ2)

32. Zhenqing Liu*; Shengyu Lu; Takeshi Ishihara; Large eddy simulations of wind-turbine wakes in typical complex topographies, Wind Energy, 2020, (SCI, IF=2.730, 中科院3, JCRQ2)

33. Zhenqing Liu; Shuyang Cao; Heping Liu*; Takeshi Ishihara; Large-eddy simulations of the flow over an isolated three-dimensional hill, Boundary-Layer Meteorology, 2019, 170: 415-441. (SCI, IF=2.949, 中科院3, JCRQ2)

34. Zhenqing Liu*; Yiran Hu; Yicheng Fan; Wei Wang; Qingsong Zhou. Turbulent flow fields over a 3D hill covered by vegetation canopy through large eddy simulations, Energies, 2019, 12: 3624. (SCI, IF=3.004, 中科院3, JCRQ3)

35. Zhenqing Liu*; Yiran Hu; Wei Wang; Large eddy simulations of the flow fields over simplified hills with different roughness conditions, slopes, and hill shapes: A systematical study, Energies, 2019, 12: 3413 (SCI, IF=3.004,, 中科院3, JCRQ3)

36. Zhenqing Liu*; Qingsong Zhou; Yuangang Tu; Wei Wang; Xugang Hua; Proposal of a novel semi-submersible floating wind turbine platform composed of inclined columns and multi-segmented mooring lines, Energies, 2019, 12: 1809 (SCI, IF=3.004,, 中科院3, JCRQ3)

37. 刘震卿*; 张冲; 吴晓波; 李秋明; 考虑粗糙地表的风场仿真研究及误差分析, 空气动力学学报, 2020, 37: 12-14.

38. 罗啸宇; 谈正铠; 吴晓波; 刘震卿*; 涂元刚; 考虑地表粗糙影响的下击暴流数值仿真, 土木工程与管理学报, 2018, 35: 110-114.



已授权国家发明专利

_ 标注指导学生

1. 一种风洞温度梯度控制装置及其控制方法,发明专利号:ZL2019102140076(刘震卿,胡一冉)

2. 一种具有减摇功能的海上风机发电设备,发明专利号:ZL2019105397250(刘震卿,朱宏平,樊贻成)

3. 一种可变功率的斜拉索永磁式电涡流阻尼器,发明专利号:ZL2018100953316(刘震卿,朱宏平,熊世树,王伟李秋明张冲)

4. 一种海上漂浮风机,发明专利号:ZL2019112741197(刘震卿,卞维福,朱宏平,熊世树)

5. 一种滞回曲线可调的复合型隔震支座系统,发明专利号:ZL2018102181813(朱宏平,刘震卿,王伟,熊世树,张冲李秋明刁正)

6. 一种自适应调节的电涡流阻尼器,发明专利号:ZL2019110278730(刘震卿,卞维福,朱宏平,熊世树)

7. 一种分岔系泊线式风机系泊系统及海上风力发电设备,发明专利号:ZL2019102200132(刘震卿,周青松)

8. 一种具有减振功能的风机发电设备,发明专利号:ZL2019105224849(刘震卿,卢圣煜,熊世树)

9. 一种海上半潜式风能及波浪能集成发电设备,发明专利号:ZL2019105397157(刘震卿,熊世树,周青松)

10. 喀斯特地貌下孤立山峰上空风场模拟范围选取方法,发明专利号:ZL201810344011X(刘震卿,王伟,熊世树)

11. 一种基于GIS数据生成复杂地形网格模型的插值方法,发明专利号:ZL201810321480X(刘震卿,张冲,熊世树)

12. 一种基于OpenFOAM的模拟复杂地形地表粗糙度的方法,发明利号:ZL2018103303339(刘震卿,吴晓波,熊世树)

13. 一种波浪能板式发电装置,发明专利号:ZL2019105294907(刘震卿,胡一冉)

14. 一种基于惯性放大机理改进的滚动质量调谐阻尼器,发明专利号:ZL202110125339.4(刘震卿,王艺泽,朱宏平)

15. 一种飞掷物定量释放试验装置,发明专利号:ZL202110273927.2(刘震卿,樊双龙)

16. 一种基于Fluent的风机尾流自动获取方法,发明专利号:ZL 2018113537234(刘震卿,李秋明)


已授权国家软件著作权

_ 标注指导学生

1. 风力机风致动力分析软件,登记号:2018SR984748(刘震卿李秋明)

2. 基于GIS数据的复杂地形网格模型生成软件,登记号:2018SR1004248(刘震卿张冲)

3. 局部微地形台风风场降尺度模拟软件,登记号:2018SR1004261(刘震卿张冲)

4. 风力机尾流自动计算分析软件,登记号2019SR0050438(刘震卿涂元刚)

5. 系泊浮式结构仿真软件,登记号:2019SR0469918(刘震卿王艺泽)

6. 基于web的复杂地形风场可视化计算平台,登记号:2019SR1118599(刘震卿曹益文)

7. 基于高阶谱单元的流体计算程序,登记号:2019SR0624575(刘震卿曹益文)

8. 海上波浪数值模拟软件,登记号:2019SR0633469(刘震卿涂元刚)

9. 基于Fluent的湍流入流自动生成软件,登记号:2019SR0633470(刘震卿张冲)

10. 基于web的城市风场可视化计算平台,登记号:2019SR1127343(刘震卿曹益文)

11. 基于webWRF降尺度耦合风场可视化计算平台,登记号:2019SR1172610(刘震卿曹益文)

12. 基于Matlab的平坦地形下风机高度优化软件,登记号:2020SR0230471(刘震卿樊双龙)

13. 复杂山地-风力发电机风场耦合分析程序,登记号:2021SR0653298(刘震卿樊双龙)

14. 基于pyTecplot的流场后处理自动可视化软件,登记号:2021SR1051563(刘震卿樊双龙)



在读研究生

王艺泽,博士,(QQ: 1528106436)

李伟鹏,硕士,(QQ: 2548780628)

樊双龙,硕士,(QQ: 1470318860)

王超,硕士,(QQ: 774321250)

王承源,硕士,(QQ: 1433978853)



已毕业学生去向

吴晓波(硕士,合作指导):中国建筑国际投资有限公司,(QQ: 1963015722)

王伟(硕士,合作指导):日本东京工业大学(博士),日本九州大学(博士后)(QQ: 992169100)

李秋明(硕士):中铁第四勘察设计院集团有限公司,(QQ: 1152636225)

张冲(硕士,合作指导):新城控股集团,(QQ: 1225624230)

M.Y.S Alnajjar(硕士):bat365app手机版下载,博士,(QQ: 706953163)

周青松(硕士):广州地铁设计研究院股份有限公司,(QQ: 1414458717)

涂元刚(硕士):世茂房地产,(QQ: 1433532027)

卢圣煜(硕士):宜昌宏融基业房地产投资公司,(QQ: 1103653129)

樊贻成(硕士):广西省选调,(QQ:1066568624)

曹益文(硕士):湖南大学,博士,(QQ: 149452550)

胡一冉(硕士):中冶南方工程技术有限公司,(QQ: 2876933566)

彭杰(硕士):北京构力科技有限公司,(QQ:1429010298)

卞维福(硕士):重庆市选调,(QQ: 1327415515)



主编专著

1. 龙卷风的数值仿真,作者:刘震卿,2021,bat365app手机版下载出版社

2. 风力发电中的计算风工程,作者:刘震卿,2020,bat365app手机版下载出版社



获国家奖学金情况

李秋明(2018),张冲(2019),胡一冉(2020),王艺泽(2020),樊双龙(2021)




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