Gao Xueping
School
School of Civil Engineering
Professional Title
Professor
Contact Information
xpgao@tju.edu.cn
Institute of Hydraulics, Beiyangyuan 42, Tianjin University, 135 Yaguan Road, Jinnan District, Tianjin
300350
Brief Introduction
高学平,男,1962年11月生,教授,博士生导师。任水力学所所长,水力学及河流动力学学科学术带头人,水利工程学科学术委员会委员,天津大学学位评定第八分委会(建工学院)委员。中国水力发电工程学会抽水蓄能行业分会理事,中国水利学会城市水利专委会委员,中国水利学会水力学专委会委员,《水资源保护》编委,《南水北调与水利科技》编委。曾任天津大学建工学院水电系系主任,国际水利与环境工程学会(IAHR)中国分会执委,《水动力学研究与进展》编委。主要研究领域为工程水力学和环境水力学。先后主持国家自然科学基金、国家科技支撑计划课题、国家水体污染控制与治理科技重大专项子题、教育部回国人员基金、高等学校博士学科点专项科研基金、天津市自然科学基金、横向合作科研多项。在水利学报、Energy、Renewable Energy、Journal of Hydrology等国内外高水平刊物发表论文200余篇,其中50余篇被SCI、EI检索。获国家发明专利5项。获教育部科技进步奖、云南省科技进步奖、天津市科技进步奖等5项。培养毕业了硕士研究生90余名、博士研究生30余名。
Education Background
- Doctoral degree| Tianjin University| Coastal Engineering| 1992
- Master’s Degree| Tianjin University| Hydraulics and river dynamics| 1987
- Bachelor’s Degree| Tianjin University| Water conservancy and hydropower engineering| 1984
Research Interests
- Study on hydraulic characteristics of inlet and outlet of pumped storage power station
- Study on the precise measurement and motion mechanism of water flow
- Hydraulic model test and numerical simulation research
- Physical model test and numerical simulation of reservoir sediment deposition
- Reservoir water temperature simulation and stratified water intake and drainage water temperature research
- Hydrodynamic water quality simulation study
- Research on Hydraulic Simulation and Water volume Regulation of drainage connectivity
Professional Membership
- Member of the third Executive Committee of the International Society for Hydraulic and Environmental Engineering (IAHR) China Branch
- Member of the 4th Executive Committee of International Society for Hydraulic and Environmental Engineering (IAHR) China Branch
- Member of Urban Water Conservancy Committee, Chinese Hydraulic Society
- Member of Hydraulics Committee, Chinese Hydraulic Society
- Editor, Research and Progress in Hydrodynamics
- Editorial Board of Water Resources Conservation
- Editor, South-to-North Water Diversion and Water Science and Technology
Positions & Employments
-
1992.5-1995.9
Department of Water Resources, Tianjin University | Associate professor -
1995.10-1998.5
Ehime University, Department of Civil and Environmental Engineering | Assistant Professor -
1999.11-Now
School of civil engineering, Tianjin University | Professor -
1998.4-1999.10
School of civil engineering, Tianjin University | Associate professor
Academic Achievements
- Papers
- [1] GAO Xueping et al. Effects of bed permeability on the hydrodynamic characteristics in a channel with a vegetation patch: A modeling study, Journal of Hydrology, 2022, 612: 128046.
- [2] Zhu Hongtao, Gao Xueping, Liu Yinzhu, Experimental investigation on the unsteady flow fluctuation of a vertical pipe inlet/outlet of the pumped storage power station, Journal of Energy Storage, 2023, 58: 106381.
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- [3] Zhu Hongtao, Gao Xueping, Liu Yinzhu, et al. Numerical and experimental assessment of the water discharge segment in a pumped-storage power station, Energy, 2023, 265: 126375.
- [4] GAO Xueping et al. Precipitation projection over Daqing River Basin (North China) considering the evolution of dependence structures, Environmental Science and Pollution Research, 2022, 29: 1-16.
- [5] GAO Xueping et al. Assessing the Effects of Restoration Measures on Water Quality in a Large Shallow Reservoir, Sustainability, 2019, 11(19): 5347.
- [6] GAO Xueping et al. PIV experimental study on the flow characteristics upstream of a floating intake in nonlinear stratified ambient conditions, Environmental Fluid Mechanics, 2019, 19: 1005-1024.
- [7] GAO Xueping et al. CFD Optimization Process of a Lateral Inlet/Outlet Diffusion Part of a Pumped Hydroelectric Storage Based on Optimal Surrogate Models, Processes, 2019, 7(4): 204.
- [8] GAO Xueping et al. Nitrogen and phosphorus removal comparison between periphyton on artificial substrates and plant-periphyton complex in floating treatment wetlands, Environmental Science and Pollution Research, 2019, 26: 21161-21171.
- [9] GAO Xueping et al. Water shortage risk assessment considering large-scale regional transfers: a copula-based uncertainty case study in Lunan, China, Environmental Science and Pollution Research, 2018, 25: 23328-23341.
- [10] GAO Xueping et al. Modeling the exposure time in a tidal system: the impacts of external domain, tidal range, and inflows, Environmental Science and Pollution Research, 2018, 25: 11128-11142.
- [11] GAO Xueping et al. Numerical investigation of flow in a vertical pipe inlet/outlet with a horizontal anti-vortex plate: Effect of diversion orifices height and divergence angle, Engineering Applications of Computational Fluid Mechanics, 2018, 12(1): 182-194.
- [12] GAO Xueping et al. A joint-probabilistic programming method for water resources optimal allocation under uncertainty: A case study in the Beiyun River, China, Journal of Hydroinformatics, 2018, 20(2): 393-409.
- [13] GAO Xueping et al. Shape optimization of bi-directional flow passage components based on a genetic algorithm and computational fluid dynamics, Engineering Optimization, 2018, 50(8): 1287-1303.
- [14] GAO Xueping et al. Multi-objective optimization design of bidirectional flow passage components using RSM and NSGA II: A case study of inlet/outlet diffusion segment in pumped storage power station, Renewable energy, 2018, 115: 999-1013.
- [15] GAO Xueping et al. Employing SWOT Analysis and Normal Cloud Model for Water Resource Sustainable Utilization Assessment and Strategy Development, Sustainability, 2017, 9(8): 1439.
- [16] GAO Xueping et al. Estimating renewal timescales with residence time and connectivity in an urban man-made lake in China, Environmental Science and Pollution Research, 2016, 23: 13973-13983.
- [17] GAO Xueping et al. Modelling the effect of water diversion projects on renewal capacity in an urban artificial lake in China, Journal of Hydroinformatics, 2015, 17(6): 990-1002.
- [18] GAO Xueping et al. Water renewal timescales in an ecological reconstructed lagoon in China, Journal of Hydroinformatics, 2013, 15(3): 991-1001.
- [19] GAO Xueping et al. Characteristics of scour deposition in front of breakwaters under irregular broken clapotis, China Ocean Engineering, 2004, 18(3): 493-500.
- [20] GAO Xueping et al. Scours in front of a breakwater by broken waves and their similarity law, Transactions of Tianjin University, 2001, 7(1): 12-16.
- [21] GAO Xueping et al. Study on total sediment transport by flow, Journal of Hydrodynamics, 2001, 13(2): 86-90.
- [22] GAO Xueping et al. Wave transmission reflection due to a thin vertical barrier, Journal of Hydrodynamics, 2001, 13(1): 28-33.
- [23] GAO Xueping et al. Comparison of scours in front of vertical breakwaters due to irregular waves, Journal of Hydrodynamics, 2000, 12(1): 1-7.
- [24] GAO Xue-ping et al. Wave reflection, transmission harmonics due to different submerged structures, Acta Oceanologica Sinica, 2000, 19(2): 111-125.
- [25] GAO Xueping et al. Wave motions around different submerged structures, Acta Oceanologica Sinica,1998, 7(3): 363-374.
- [26] GAO Xueping et al. The characteristics of scouring and depositing in front of vertical breakwaters by broken clapotis, Coastal Engineering Journal, 1998, 40(1): 99-113.
- [27] GAO Xueping et al. The characteristic and prediction of scour in front of breakwaters by standing waves, Acta Oceanologica Sinica, 1995, 14(1): 103-112.
- [28] GAO Xueping et al. Interaction between waves, structures and sand beds, Journal of Hydrodynamics, 1995, 7(4): 103-110.
- [29] 高学平等, 平面转弯有压输水隧洞对进出水口水力特性影响研究, 天津大学学报(自然科学版), 2023, 56(5): 1-11.
- [30] 高学平等, 拦污栅结构对进出水口水力特性影响试验研究, 水力发电学报, 2023, 42(02): 74-86.
- [31] 高学平等, 进出水口双向流动结构流速分布与脉动规律研究, 水利学报, 2022, 53(06): 722-732.
- [32] 高学平等, 含植物河道等效床面阻力试验研究, 水利学报, 2021, 52(09): 1024-1035+1046.
- [33] 高学平等, 侧式进/出水口及邻近围堰环流消除优化研究, 水力发电学报, 2021, 40(08): 23-33.
- [34] 高学平等, 反坡段对侧式进/出水口水力特性影响研究, 水力发电学报, 2021, 40(05): 87-98.
- [35] 高学平等, 基于涡动相关法的沉积物-水界面氧通量与水动力条件响应关系, 水利学报, 2020, 51(03): 315-325.
- [36] 高学平等, 基于响应面模型侧式进/出水口体型多目标优化, 华中科技大学学报(自然科学版), 2019, 47(11): 127-132.
- [37] 高学平等, 朱洪涛等, 基于RBF代理模型的调水过程优化研究, 水利学报, 2019, 50(04): 439-447.
- [38] 高学平, 朱洪涛, 孙博闻等, 不对称地形下进/出水口明渠段环流特性研究, 水力发电学报, 2019, 38(08): 48-60.
- [39] 高学平等, 河流—地下水系统水量平衡耦合模型分析——以海河流域黎河下游为例, 水力发电学报, 2018, 37(04): 36-48.
- [40] 高学平等, 利用多岛遗传算法的侧式进/出水口体型优化研究, 水利学报, 2018, 49(02): 186-194.
- [41] 高学平等, 节制闸对分水口处渠道水力响应的影响及敏感性研究, 水力发电学报, 2018, 37(02): 79-87.
- [42] 高学平等, 基于改进贴近度法的水质监测点优化布设, 安全与环境学报, 2017, 17(03): 1190-1194.
- [43] 高学平, 孙博闻等, 基于时域权重矩阵的模糊综合水质评价法及其应用, 环境工程学报, 2017, 11(02): 970-976.
- [44] 高学平等, 调水工程中相邻梯级泵站的开启时间差研究, 水利学报, 2016, 47(12): 1502-1509.
- [45] 高学平等, 抽水蓄能电站侧式进/出水口流量分配研究, 水力发电学报, 2016, 35(06): 87-94.
- [46] 高学平等, 人工湖水生态系统构建方法研究, 环境工程学报, 2016, 10(02): 948-954.
- [47] 高学平等, 具有弯道的竖井式出水口水流均匀性研究, 水力发电学报, 2016, 35(01): 63-69.
- [48] 高学平等, 不同类型取水口下泄水温试验研究, 水力发电学报, 2015, 34(06): 149-153.
- [49] 高学平等, 多层孔型取水口下泄水温试验研究, 水力发电学报, 2015, 34(05): 103-107.
- [50] 高学平等, 水电站多层进水口水力特性数值模拟研究, 水力发电学报, 2015, 34(03): 90-95.
- [51] 高学平等, 溢洪道弯道水流影响因素研究, 水力发电学报, 2014, 33(04): 132-138.
- [52] 高学平等, 溢洪道掺气坎槽后掺气水流三维数值模拟研究, 水力发电学报, 2014, 33(02) :90-96.
- [53] 高学平等, 水电站叠梁门分层取水流动规律及取水效果, 天津大学学报(自然科学与工程技术版), 2013, 46(10): 895-900.
- [54] 高学平等, 浮式管型取水口下泄水温试验研究, 水力发电学报, 2013, 32(02): 163-167.
- [55] 高学平等, 入湖河流对南四湖水质的影响, 水资源保护, 2013, 29(02): 1-5.
- [56] 高学平等, 糯扎渡水电站多层进水口下泄水温三维数值模拟, 水力发电学报, 2012, 31(01): 195-201+207.
- [57] 高学平等, 糯扎渡水电站进水口分层取水数值模拟研究, 水力发电学报, 2010, 29(06): 132-137.
- [58] 高学平等, 糯扎渡水电站多层进水口下泄水温试验研究, 水力发电学报, 2010, 29(06): 132-137.
- [59] 高学平等, 水库分层取水水温模型试验的相似理论, 水利学报, 2009, 40(11): 1374-1380.
- [60] 高学平等, 进水口随机出现的漩涡试验研究, 水力发电学报, 2009, 28(04): 137-142.
- [61] 高学平等, 河流系统健康状况评价体系及评价方法, 水利学报, 2009, 40(08): 962-968.
- [62] 高学平等, 水电站进水口漩涡缩尺效应, 天津大学学报, 2008(09): 1116-1119.
- [63] 高学平, 崔广涛, 生态城市与水利现代化, 水利学报, 2007, 38(11): 1306-1311.
- [64] 高学平等, 入海洪水资源的海洋水库开发模式研究, 海洋学报, 2007, 29(1): 139-145.
- [65] 高学平等, 干旱地区区域内部洪水资源调配研究, 干旱区资源与环境, 2007, 21(3): 32-38.
- [66] 高学平, 张晨等, 黄济津河道水质数值模拟与预测, 水动力学研究与进展, 2007, Ser.A.22(1): 36-43.
- [67] 高学平等, 海水作景观水引起河道两岸地下水污染的研究, 农业工程学报, 2006, 22(2): 132-137.
- [68] 高学平等, 复杂结构形式海堤波浪力及波浪形态数值模拟, 海洋学报, 2006, 28(1): 139-145.
- [69] 高学平, 李昌良, 张尚华, 堤前远破波运动与冲淤形态, 海洋通报, 2006, 25(1): 24-29.
- [70] 高学平, 郭磊, 李兰秀, 蓄滞洪区蓄水优化研究, 干旱区资源与环境, 2006, 20(5): 46-50.
- [71] 高学平, 宋慧芳, 赵耀南, 淹没扩散出流不稳定现象研究, 水力发电学报, 2006, 25(4): 29-33.
- [72] 高学平, 张晨等, 河道汛期行洪冲污研究, 水利学报, 2005, 36(10): 1199-1203.
- [73] 高学平等, 抽水蓄能电站竖井式出水口三维数值模拟, 水力发电学报, 2004, 23(2): 25-38.
- [74] 高学平等, 水电站压力管道系统较大比尺水击模型试验设计方法, 水力发电学报, 2004, 23(2): 27-31.
- [75] 涂向阳, 高学平, 模糊数学在海水入侵地下水水质评价中的应用, 水利学报, 2003, (8): 64-69.
- [76] 高学平等, 西龙池抽水蓄能电站竖井式进出水口水力学试验研究, 水力发电学报, 2002, (1): 52-60.
- [77] 高学平等, 不规则波浪数值水槽的造波与阻尼消波, 海洋学报, 2002, (2): 127-132.
- [78] 高学平, 赵耀南, 桩柱破波力的特性分析, 水利学报, 2002, (10): 67-71.
- [79] 高学平, 洪柔嘉等, 全沙模型试验的一种设计方法, 水利学报, 1996, (6): 57-62.
- [80] 高学平等, 立波作用下堤前冲刷特性及预报, 海洋学报, 1995, 17(5): 140-146.
- [81] 高学平, 陡槽水面线的计算, 水力发电学报, 1995, (4): 28-34.
- [82] 高学平等, 直立堤前为任意地形时立波运动的数值计算, 海洋学报, 1995, 17(1): 111-120.
- [83] 高学平等, 直立堤前海床的冲刷, 水利学报, 1994, (6): 44-48.
- [84] 高学平, 秦崇仁等, 板结粉沙运动规律的研究, 水利学报, 1994, (12): 1-6.
- Books
- [1] Hydraulics, China Water Resources and Hydropower Press, 2019
- [2] Hydraulics (2nd Ed.), China Architecture and Building Press, 2018
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- [3] Hydraulic Model Design and Practice, Tianjin University Press, 2017
- [4] Hydraulics (continued), China Architecture and Building Press, 2008
- [5] Hydraulics, China Architecture and Building Press, 2006
- [6] Advanced Fluid Mechanics, Tianjin University Press, 2005
- [7] Fluid Mechanics, Tianjin University Press, China Radio and Television University Press, 2002
- Honors & Awards
- [1] Science and Technology Progress Award of Ministry of Education -- Stratified Flow Simulation and control Technology and Application of large Reservoirs, Second Prize of provincial and ministerial level, ranking 1,2013
- [2] Tianjin Science and Technology Progress Award, Natural Science Award -- Research on sea bed scour in front of Breakwater under Wave Action, Provincial third Prize, ranked 2,2000
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- [3] Science and Technology Progress Award of Yunnan Province -- Research on Layered Water intake of large hydropower Station, first prize of provincial and ministerial level, ranked 6,2011
- [4] Tianjin Science and Technology Progress Award -- Site Vibration Induced by high dam discharge -- Low-frequency acoustic wave hazard and low-temperature water treatment and regulation technology, provincial and ministerial first Prize, ranking 8,2018
- [5] Science and Technology Award of Hydropower Generation -- Study on the shape and hydraulic characteristics of Well Inlet and outlet of Pumped storage Power Station, Third Prize of Social Forces (China Society of Hydropower Engineering), ranked 5,2012
- [6] The third "National Excellent Advisor for Hydraulic Engineering Graduate Students", National Engineering Graduate Education Steering Committee, 2019
- [7] Water conservancy major teaching Achievement Award of colleges and universities, "Strong Foundation, strong practice, emphasis on innovation, internationalization" -- the exploration and practice of the cultivation of water conservancy outstanding talents in four in one, 2020
- Research Projects
- [1] Intelligent optimization method and experimental verification of bidirectional flow inlet and Outlet (52179077), National Natural Science Foundation of China, 2022.01-2025.12
- [2] A sub-task of National Science and Technology Key Project on Water Pollution Control and Treatment: Research on Optimization of Connecting Route Scheme of Regional Water Network (2018ZX0705-002), Ministry of Science and Technology, 2018.01-2021.06
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- [3] Research and Demonstration on Key Technologies for the Joint regulation and control of rivers, channels, Lakes and Reservoirs of South-to-North Water Diversion Project (2015BAB07B02), National Science and Technology Support Plan of Ministry of Science and Technology, 2015.04-2017.12
- [4] Study on the flow regularity and water temperature of stratified intake in temperature stratified reservoir (51279125), National Natural Science Foundation of China, 2013.01-2016.12
- [5] Research on Water environment Guarantee System and Operation Management System of Longhu Project in Zhengdong New District, 2013.1-2014.12
- [6] Experimental method and similarity of water temperature model for stratified intake of reservoir (50879054), National Natural Science Foundation of China, 2009.1-2012.12
- [7] Research on the similarity Theory of water temperature test for different level intake of hydropower Station (200800560042), Doctoral Foundation of Ministry of Education, 2009.1-2012.12
- [8] Research and application of some key technologies of South-to-North Water Diversion Project, Study on Regional Ecological Impact Assessment along the first phase of the East and Middle Routes (2006BAB04A15), National 11th Five-Year Plan for Science and Technology, 2007.1-2009.12
- [9] Study on Layered Water intake of large hydropower Station (2006GG19), Yunnan Science and Technology Project, 2006.5-2008.12
- [10] The formation mechanism and scaling effect of inlet vortex (50579048), National Natural Science Foundation of China, 2006.1-2008.12
- [11] Research on numerical simulation and dynamic visualization of dike scour, Doctoral Foundation of Ministry of Education, 2004.1-2006.12
- [12] Sediment movement and erosion and deposition characteristics of vertical embankment under irregular breaking waves (59979019), National Natural Science Foundation of China, 2000.1-2002.12
- [13] Deformation and breaking limits of irregular waves on underwater structures, Foundation for Returned Overseas Students of Ministry of Education, 1998.6-2000.12
- [14] Scour of sea bed in front of vertical breakwater by breaking wave, Tianjin Natural Science Foundation, 1993.4-1995.3
- [15] 乌海抽水蓄能电站上水库进/出水口模型试验研究, 2023.03-2023.12
- [16] 浑源抽水蓄能电站上水库进/出水口模型试验研究, 2023.01-2023.06
- [17] 河北抚宁抽水蓄能电站上、下水库进/出水口模型试验研究, 2022.06-2022.12
- [18] 河北尚义抽水蓄能电站上、下水库进/出水口模型试验研究, 2022.06-2022.1
- [19] 江苏句容石砀山铜矿抽水蓄能电站下水库布置方案水力学数值模拟研究2021.11-2022.03
- [20] 河南省南湾灌区续建配套与现代化改造工程(平桥闸渠首枢纽部分)水工模型试验研究, 2021.09-2022.11
- [21] 河南省袁湾水库工程鱼道数值模拟及模型试验研究, 2021.07-2021.12
- [22] 河南省袁湾水库工程水工模型试验研究, 2021.01-2021.07
- [23] 内蒙古芝瑞抽水蓄能电站上、下水库进/出水口模型试验研究, 2020.06-2021.03
- [24] 山东潍坊抽水蓄能电站上、下水库进/出水口模型试验研究, 2020.06-2021.03
- [25] 河南省宿鸭湖水库清淤工程库区水质数值模拟预测研究, 2018.10-2018.12
- [26] 抚宁抽水蓄能电站上、下水库侧式进/出水口数值模拟, 2018.07-2018.10
- [27] 潍坊抽水蓄能电站上水库竖井式进/出水口数值模拟, 2018.03-2018.04
- [28] 磐安抽水蓄能电站上、下水库侧式进/出水口数值模拟, 2017.11-2018.01
- [29] 河北省曹妃甸中小企业园区(东区)市政及防洪专项规划, 2017.09-2018.03
- [30] 易县抽水蓄能电站上水库竖井式进/出水口数值模拟, 2017.09-2017.11
- [31] 水生态修复工程与防洪除涝双向反馈效应研究, 2017.08-2019.08
- [32] 清原抽水蓄能电站尾水混凝土岔管数值模拟, 2017.06-2017.08
- [33] 安徽省宿州市主城区黑臭水体综合整治工程, 2017.04-2017.11
- [34] 芝瑞抽水蓄能电站上水库竖井式进/出水口数值模拟, 2016.10-2017.01
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- [56] 西龙池抽水蓄能电站上库进/出水口数值模拟(招标阶段),2003.9-2004.9
- [57] 西龙池抽水蓄能电站下库进/出水口水工模型试验(招标阶段),2001.10-2003.3
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- [60] 西龙池抽水蓄能电站上水库进出水口水工模型试验(可研阶段),1998.6-1999.6
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- [62] 汾河太原城区段治理美化工程泥沙物理模型试验,1998.5-1998.11
- [63] 张河湾水库泥沙模型试验研究,1992.10-1993.10