• 基本介绍
  • 教育经历
  • 工作经历
  • 研究方向
  • 科研项目
  • 论文信息
  • 专利著作
高成
教授,硕士生导师
刘光文馆副楼404 gchohai@163.com
高成,男中共党员,工学博士,教授、硕士生导师,佐治亚理工学院访问学者。现为河海大学水务工程研究所所长。主要从事城市水安全及生态水系统方面的研究。

主持水利部重大科技项目、国家重点研发计划项目专题、国家自然科学基金项目、新疆维吾尔自治区重点研发项目课题、江苏省水利科技项目等研究课题10余项,承担各类社会服务类项目40余项;发表核心及以上相关论文60余篇,其中 SCI 检索30余篇;授权发明专利7 项,软件著作权3项;第一作者完成专著2部,其中《滨江城市排涝模型》获得水利部《水利科技专著译著出版项目》资助。担任中国环境科学学会生态环境修复专业委员会委员、中国水利学会减灾专业委员会青年委员、江苏省工程师学会生态环境专业委员会委员、《中国防汛抗旱》青年编委、《人民珠江》特约编委,Journal of Hydrology、Journal of Hydrology: Regional Studies、Journal of Environmental Management、Journal of Irrigation and Drainage、Environmental Earth and Sciences 和 KSCE Journal of Civil Engineering等 SCI 期刊以及国内知名行业期刊《水科学进展》审稿人。

教育经历

  • 2001-09 - 2005-06: 河海大学 水文与水资源工程 学士
  • 2005-09 - 2010-06: 河海大学 水文学及水资源 博士

工作经历

  • 2011-06 - 2014-02 河海大学环境学院博士后
  • 2014-03 - 2024-07 河海大学水文水资源学院副教授
  • 2024-07 - 至今 河海大学水文水资源学院教授
  • 2018-12 - 2020-01 佐治亚理工学院访问学者

研究方向

  • 城市洪涝灾害防治
  • 洪水资源化
  • 城市水安全及生态水系统

科研项目

  • 2024-01 ~ 2026-12,变化环境下新疆典型流域洪水资源化关键技术研究,省部级,省、市、自治区科技项目,纵向,项目负责人
  • 2023-01 ~ 2025-12,面向“四预”要求的长三角通用水利专业模型研发及应用示范,省部级,省、市、自治区科技项目,纵向,项目负责人
  • 2023-01 ~ 2025-12,长三角区域通用水利专业模型库研发(千万级重大项目),产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2021-10 ~ 2021-12,宁波城市水文社会化服务研究,产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2021-06 ~ 2023-06,苏州城市大包围降雨径流关系拟合及优化调度研究,产学研合作项目,企事业单位委托科技项目,纵向,项目负责人
  • 2021-02 ~ 2022-12,长三角一体化背景下智慧灌溉模型研发及应用,产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2021-02 ~ 2023-06,长三角一体化背景下智慧灌溉模型研发及应用(基于低影响开发的城市雨水利用规模确定方法等四项专利实施许可),产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2020-12 ~ 2023-12,以城市防洪圈为基础的洪涝预警预报模型研发及应用,产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2020-12 ~ 2022-06,长三角一体化背景下复杂河网区精细化水文水力模型研发及应用,产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2019-08 ~ 2019-12,中小河流生态保护技术研究,产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2019-03 ~ 2019-06,安吉两库引水工程水环境影响专题,产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2018-11 ~ 2019-02,基于多水源条件下区域生态调水机制研究,产学研合作项目,企事业单位委托科技项目,横向,项目负责人
  • 2017-06 ~ 2019-06,武澄锡虞区城市群洪涝致灾机理与调控技术模型研究,省部级,省、市、自治区科技项目,纵向,项目负责人

论文信息

  • Gao, C., Xu, Z.T., Yan, X.J., Wang, G.D., Lin, X.P., Zhang, J.C. and Guo, X. 2024a. Coupling the measures of pollution source control and water replenishment to improve water quality in the catchment scale of Qianshan River Basin. Environmental Pollution 341.
  • Xu, Z., Gao, C., Quan, Q., Hao, M., Wang, Q., She, L., Zhang, Y. and Wu, B. 2024. Relative contributions of main factors to water levels in Wuchengxiyu Region, China. JOURNAL OF CLEANER PRODUCTION 452. (通讯作者)
  • Gu, L., Sun, Y., Gao, C. and She, L. 2024. A Coupled Parameter Automation Calibration Module for Urban Stormwater Modelling. WATER 16. (通讯作者)
  • Chen, J., Gao, C., Zhou, H., Wang, Q., She, L., Qing, D. and Cao, C. 2024. Urban Flood Risk Assessment Based on a Combination of Subjective and Objective Multi-Weight Methods. APPLIED SCIENCES-BASEL 14. (通讯作者)
  • Gao, X.Q., Liu, Y.Z., Gao, C., Qing, D.D., Wang, Q. and Cai, Y.L. 2024b. Coupling and Comparison of Physical Mechanism and Machine Learning Models for Water Level Simulation in Plain River Network Area. Applied Sciences-Basel 14(24).(通讯作者)
  • Zhou, H., Gao, C., Luan, Q., Shi, L., Lu, Z. and Liu, J. 2024a. Multi-objective optimization of distributed green infrastructure for effective stormwater management in space-constrained highly urbanized areas. JOURNAL OF HYDROLOGY 644.
  • Zhou, H., Liu, J., Ou, S., Gao, C., Zhou, Y., Shi, L. and Zhou, K. 2024b. Impact of effective impervious surface disconnection on urban hydrographs: A multi-scenario modeling study at the catchment scale. JOURNAL OF HYDROLOGY 630.
  • Li, H., Luan, Q., Liu, J., Gao, C. and Zhou, H. 2024. A Framework Based on LIDs and Storage Pumping Stations for Urban Waterlogging. REMOTE SENSING 16.
  • Gao, C., Wang, Z.Y., Ji, X.M., Wang, W.Y., Wang, Q. and Qing, D.D. 2023a. Coupled improvements on hydrodynamics and water quality by flowing water in towns with lakes. Environmental Science and Pollution Research 30(16), 46813-46825.
  • Gao, C., Zhang, B.Y., Shao, S.B., Hao, M.Q., Zhang, Y.Q., Xu, Y., Kuang, Y., Dong, L.X. and Wang, Z.W. 2023b. Risk assessment and zoning of flood disaster in Wuchengxiyu Region, China. Urban Climate 49, 11.
  • Hao, M., Gao, C., Li, G., Zhang, B., Zhu, J. and Xu, Y. 2023a. Impacts of land use on climate in the Taihu Basin based on WRF model. URBAN CLIMATE 52. (通讯作者)
  • Hao, M.Q., Gao, C. and Chen, J. 2023b. Temporal analysis and the joint probability distribution of rainfall indexes in the Taihu Lake Basin, China. Theoretical and Applied Climatology 152(3-4), 951-965. (通讯作者)
  • Hao, M.Q., Gao, C., Gu, C.X., Hou, T. and Zhang, Y.Q. 2023c. Numerical simulation of the impact of urbanization on climate in Taihu Lake Basin. Ecological Indicators 154, 8. (通讯作者)
  • Wang, Y.H., Gao, C., Xu, J., Zhang, W., She, L.L., Zhang, Q.Q. and Bao, R.L. 2023. Assessing the mechanism for flood control: a case of plain river network cities under extreme rainfalls. Environmental Science and Pollution Research 30(13), 38076-38098. (通讯作者)
  • Zhou, H., Liu, J., Ou, S.F., Shi, Y.J., Gao, C., Shi, L.M. and Jin, C. 2023. A multi-criteria analysis framework for water transfers to improve the water environments under strong artificial interventions in highly urbanized areas. Environmental Research 220, 15.
  • Gao, C., Hao, M.Q., Song, L.H., Rong, W., Shao, S.B., Huang, Y., Guo, Y.F. and Liu, X.Y. 2022. Comparative study on the calculation methods of ecological base flow in a mountainous river. Frontiers in Environmental Science 10.
  • Liu, Y., Gao, C., Ji, X.M., Zhang, Z.Y., Zhang, Y.Q., Liu, C.W. and Wang, Z.X. 2022. Simulation of water resources carrying capacity of the Hangbu River Basin based on system dynamics model and TOPSIS method. Frontiers in Environmental Science 10, 13. (通讯作者)
  • Gao, C., Hao, M.Q., Chen, J. and Gu, C.X. 2021. Simulation and design of joint distribution of rainfall and tide level in Wuchengxiyu Region,China. Urban Climate 40.
  • Zhou, H., Liu, J., Hua, P., Dong, L., Gao, C., Hong, G.X., Li, W.D., Xie, H.W. and Wu, Y.W. 2020a. Performance of water transfer in response to water environment issues in Wuxi, China. Environmental Science and Pollution Research 27(12), 13963-13975.
  • Zhou, H., Liu, J., Pan, N.X., Zhang, Z., Gao, C., Bao, R.L., Wang, X.S., Wu, Y.W., Luo, W.L., Xu, J. and Zhou, Y.T. 2020b. Effects on water quality after water transfer in the Yinxi Watershed, Ningbo, China. Desalination and Water Treatment 189, 179-189.
  • Gao, C., Zhang, Y.Q., Zhou, Y., Gu, C.X., Qing, D.D. and Wang, Z.X. 2019c. Evaluation of river network planning layout in plain city consideration for combining water quality and flood control. Desalination and Water Treatment 168, 224-234.
  • Hao, M.Q., Gao, C., Sheng, D. and Qing, D.D. 2019. Review of the influence of low-impact development practices on mitigation of flood and pollutants in urban areas. Desalination and Water Treatment 149, 323-328. (通讯作者)
  • Ye, T.T., Li, H.B., Wang, Z.X., Huang, R.X., Yu, Y.J., Yang, Z.H., Gao, C. and Xie, C.S. 2019. Transport and fate of hexavalent chromium in slag-soil system. Environmental Earth Sciences 78(7).
  • Gao, C., Liu, J., Cui, H., Wang, Z.W. and He, S. 2014. Optimized water surface ratio and pervious surface proportion in urbanized riverside areas. Environmental Earth Sciences 72(2), 569-576.
  • Gao, C., Liu, J., Cui, H. and Hu, J. 2013a. Treatment of pump drainage boundary in riverside city. Environmental Earth Sciences 68(5), 1435-1442.
  • Gao, C., Liu, J. and Wang, Z.W. 2013b. An Ecological Flood Control System in Phoenix Island of Huzhou, China: A Case Study. Water 5(4), 1457-1471.
  • Gao, C., Liu, J., Zhu, J. and Wang, Z.W. 2013c. Review of Current Research on Urban Low-impact Development Practices. Research Journal of Chemistry and Environment 17, 209-214.
  • Hu, J., Liu, J., Liu, Y. and Gao, C. 2013. EMD-KNN Model for Annual Average Rainfall Forecasting. Journal of Hydrologic Engineering 18(11), 1450-1457.
  • Gao, C., Liu, J., Liu, X.Y. and Zhang, H.Y. 2012. Compensation Mechanism of Water Surface Ratio and Pervious Surface Proportion for Flood Mitigation in Urban Areas. Disaster Advances 5(4), 1294-1297.

专利著作

  • 基于低影响开发的城市雨水利用规模确定方法
  • 一种水系结构连通性的量测方法
  • 滨江城市排涝模型
  • 典型城市河湖连通及活水调度理论与实践
  • 一种水情信息的分布式稀疏优化检测方法
  • 基于多尺度谱聚类及决策级融合的SAR图像溢油检测方法
  • 一种基于好氧颗粒污泥的污水磷的去除与回收方法
  • 一种水环境温度测量工具