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师鹏飞

职称: 副教授

部门: 水文水资源学院党委、水文水资源学院

学科: 水利工程

教学部门: 水文水资源学院党委、水文水资源学院

电话:

邮件: pfshi@hhu.edu.cn

办公地址: 刘光文馆412

通讯地址: 南京市西康路1号

邮编: 210098

10 访问

个人简介

师鹏飞(1987-),男,博士,副教授。2016年获得河海大学水文学及水资源专业博士学位,同年10月进入河海大学地球科学与工程学院从事博士后研究工作,2017年赴法国农业发展研究中心(CIRAD)、法国环境与发展国际研究中心(CIRED) 访问交流,2020年6月进入河海大学水文水资源学院工作。主持国家自然科学基金面上项目、青年项目,参与多项国家级和省部级项目,作为课题负责人参与国家172项重大水利工程项目(引汉济渭二期工程信息化勘察设计)。研究成果在国内外发表学术论文40余篇,其中SCI检索28篇,出版专著5部,授权发明专利20余项,软件著作权6项。获大禹水利科技进步一等奖1项、二等奖1项。担任长江技术经济学会青年工作委员会副秘书长,国家自然科学基金评审专家,Journal of Hydrology、Water resources research、Water Science and Engineering、湖泊科学等国内外多个期刊审稿人。

个人资料

  • 姓名: 师鹏飞
  • 性别:
  • 学位: 博士
  • 出生年月: 1987-08-29 00:00:00.0
  • 学历: 博士研究生
  • 毕业院校: 河海大学

教育经历

  • 2006.09-2010.06,河北工程大学,水文与水资源工程,学士
  • 2010.09-2016.06,河海大学,水文学及水资源(硕博连读),工学博士

工作经历

  • 2016.10-2019.09,河海大学地球科学与工程学院,博士后
  • 2017.04-2017.10,法国农业发展研究中心(CIRAD)、法国环境与发展国际研究中心(CIRED),访问交流
  • 2020.06-,河海大学水文水资源学院,副教授
  • 2020.06-,长江保护与绿色发展研究院,智慧水利研究中心成员,联络员

研究领域


流域/城市洪涝模拟与灾害风险分析

水文物理规律模拟及水文预报

大数据分析与人工智能应用

智慧水利规划及设计

科研项目

  • 1、基于空间动力特征深度学习的城市积水模拟研究,2023.01-2026.12,国家自然科学基金面上项目,主持
  • 2、植被重建影响下的降雨-产流阈值及水循环再分配,2019.01-2021.12,国家自然科学基金青年项目,主持
  • 3、流域洪水淹没影响快速分析技术研发,2022.09-2023.09,企业科技研发项目,主持
  • 4、基于深度学习的平原河网水位模拟研究,2022.01-2024.12,中央高校基本科研业务费项目,主持
  • 5、雨带北移趋势下雄安新区暴雨洪涝数据资源汇聚与分析处理,2022.04-2022.12,应急部灾研院技术服务项目,主持
  • 6、云南省农村供水保障专项行动项目信息化系统建设方案,2021.12-2022.12,云南水投供水投资有限公司委托项目,主持
  • 7、基于视觉增强和图像处理技术的水工建筑水下裂缝和缺陷识别算法应用研究,2021.05-2022.12,陕西省引汉济渭科研基金,主持
  • 8、新疆昌吉国家农业高新技术产业示范区规划水资源论证项目,2021.03-2021.05,新疆昌吉国家农业科技园区农业科技创新局,主持
  • 9、陕西省引汉济渭二期工程(信息化系统)勘察设计,2019.12-2026.12,国家172重大水利工程服务项目,课题负责人
  • 10、华北半湿润半干旱流域动态产流模式及水文模拟研究,2019.01-2020.12,中央高校基本科研业务费项目,主持
  • 11、考虑地下水超采影响的半干旱区水文模拟研究,2017.05-2019.05,中国水利水电科学研究院国家重点实验室开放基金,主持
  • 12、城市无线超高频微波时空衰变与高分辨率降雨大数据精准反演,2019.01-2022.12,国家自然科学基金面上项目,参与
  • 13、大数据驱动的流域智能管理与决策关键技术,2018.07-2021.06,国家重点研发计划项目,参与
  • 14、面向河长制的宁夏河湖健康评价与决策支持系统研发与应用,2017.09-2019.12,东西部合作宁夏自治区重点研发项目,参与
  • 15、北方半干旱区海绵城市雨水循环利用新技术研究与实践,2016.10-2018.12,山东省交通规划设计院,参与
  • 16、分布式水文模型研发,2019.02-2022.12,企业科技研发项目,参与
  • 17、中小河流洪水预报方法研究,2016.01-2018.12,企业科技研发项目,参与
  • 18、贵州中小流域山洪预警预报技术研究,2014.12-2016.12,贵州省水利科技项目,参与
  • 19、火电行业江河湖库直流冷却水耗水率分析及政策建议,2018.01-2018.12,技术服务项目,主持
  • 20、纺织行业国家鼓励的工业节水工艺技术和装备目录增补,2020.04-2020.12,技术服务项目,主持
  • 21、典型行业水效领跑者经验总结,2019.08-2020.03,技术服务项目,主持
  • 22、用水报告制度政策性文件制订技术协作,2019.03-2019.12,技术服务项目,主持
  • 23、钢铁行业耗水率分析及政策建议,2019.01-2019.12,技术服务项目,主持
  • 24、典型行业水效领跑者经验总结,2018.05-2018.12,技术服务项目,主持
  • 25、钢铁行业水效领跑者经验总结,2020.07-2021.02,技术服务项目,主持

论文

  • 1、An improved approach for water quality evaluation: TOPSIS-based informative weighting and ranking (TIWR) approach,Ecological Indicators,05-FEB-18
  • 2、Evaluating the area and position accuracy of surface water paths obtained by flow direction algorithms,Journal of Hydrology,22-JAN-20
  • 3、New Methods for the Assessment of Flow Regime Alteration under Climate Change and Human Disturbance,WATER,01-JAN-19
  • 4、A revised range of variability approach considering the morphological alteration of hydrological indicators,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT
  • 5、Thermal conversion of polypyrrole nanotubes to nitrogen-doped carbon nanotubes for efficient water desalination using membrane capacitive deionization,SEPARATION AND PURIFICATION TECHNOLOGY,01-JAN-20
  • 6、Urban water consumption in a rapidly developing flagship megacity of south china, prospective scenarios and implications,Stochastic environmental research and risk assessment,15-AUG-13
  • 7、城市山丘区突发性洪水模拟与情景分析,水电能源科学,19-DEC-14
  • 8、黔西南地区旱涝态势变化规律分析,水电能源科学,28-NOV-14
  • 9、深圳市用水量预测及情景分析,水电能源科学,17-NOV-11
  • 10、基于贝叶斯模型平均法的洪水集合概率预报,水电能源科学,24-JUN-16
  • 11、Urban water consumption in a rapidly developing flagship megacity of South China: prospective scenarios and implications,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,01-JAN-13
  • 12、Understanding the discharge regime of a glacierized alpine catchment in the Tianshan Mountains using an improved HBV-D hydrological model,Global and Planetary Change,2019-01-15
  • 13、Analysis of multi-dimensional hydrological alterations under climate change for four major river basins in different climate zones,Climatic Change,2017-04-15
  • 14、The response o f runoff components and glacier mass balance to climate change for a glaciated high-mountainous c atchment in the Tianshan Mountains,Natural Hazards,2020-11-15
  • 15、An Improved D8-LTD for the Extraction of Total Contributing Area (TCA) by Adopting the Strategies of Path Independency and Local Dispersion,WATER RESOURCES RESEARCH,2022-03-31
  • 16、Parallel cooperation search algorithm and artificial intelligence method for streamflow time series forecasting,JOURNAL OF HYDROLOGY,2022-03-31
  • 17、Understanding the impacts induced by cut-off thresholds and likelihood measures on confidence interval when applying GLUE approach,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,2022-03-31
  • 18、Parallel cooperation search algorithm and artificial intelligence method for streamflow time series forecasting,JOURNAL OF HYDROLOGY,2022-03-01
  • 19、Understanding the impacts induced by cut-off thresholds and likelihood measures on confidence interval when applying GLUE approach,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,2022-05-10
  • 20、Adaptive Neural-Based Fuzzy Inference System and Cooperation Search Algorithm for Simulating and Predicting Discharge Time Series Under Hydropower Reservoir Operation,WATER RESOURCES MANAGEMENT,2022-06-01
  • 21、Understanding the impacts induced by cut-off thresholds and likelihood measures on confidence interval when applying GLUE approach,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,SCI,2022.05
  • 22、Parallel cooperation search algorithm and artificial intelligence method for streamflow time series forecasting,JOURNAL OF HYDROLOGY,SCI,2022.03
  • 23、An Improved D8-LTD for the Extraction of Total Contributing Area (TCA) by Adopting the Strategies of Path Independency and Local Dispersion,WATER RESOURCES RESEARCH,SCI,2022.02
  • 24、A revised range of variability approach considering the morphological alteration of hydrological indicators,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,SCI,2021.09
  • 25、Assessing the Precision of Total Contributing Area (TCA) Estimated by Flow Direction Algorithms Based on the Analytical Solution of Theoretical TCA on Synthetic Surfaces,WATER RESOURCES RESEARCH,SCI,2021.04
  • 26、The response of runoff components and glacier mass balance to climate change for a glaciated high-mountainous catchment in the Tianshan Mountains,NATURAL HAZARDS,SCI,2020.11
  • 27、A Statistical Vertically Mixed Runoff Model for Regions Featured by Complex Runoff Generation Process,WATER,SCI,2020.09
  • 28、Evaluating the area and position accuracy of surface water paths obtained by flow direction algorithms,JOURNAL OF HYDROLOGY,SCI,2020.04
  • 29、Thermal conversion of polypyrrole nanotubes to nitrogen-doped carbon nanotubes for efficient water desalination using membrane capacitive deionization,SEPARATION AND PURIFICATION TECHNOLOGY,SCI,2020.03
  • 30、New Methods for the Assessment of Flow Regime Alteration under Climate Change and Human Disturbance,WATER,SCI,2019.12
  • 31、Rainfall-Runoff Processes and Modelling in Regions Characterized by Deficiency in Soil Water Storage,WATER,SCI,2019.09
  • 32、A New Uncertainty Measure for Assessing the Uncertainty Existing in Hydrological Simulation,WATER,SCI,2019.04
  • 33、Understanding the discharge regime of a glacierized alpine catchment in the Tianshan Mountains using an improved HBV-D hydrological model,GLOBAL AND PLANETARY CHANGE,SCI,2019.01
  • 34、Impacts of climate change on flow regime and sequential threats to riverine ecosystem in the source region of the Yellow River,ENVIRONMENTAL EARTH SCIENCES,SCI,2018.06
  • 35、An improved approach for water quality evaluation: TOPSIS-based informative weighting and ranking (TIWR) approach,ECOLOGICAL INDICATORS,SCI,2018.06
  • 36、How do the multiple large-scale climate oscillations trigger extreme precipitation?,GLOBAL AND PLANETARY CHANGE,SCI,2017.10
  • 37、Development of a new IHA method for impact assessment of climate change on flow regime,GLOBAL AND PLANETARY CHANGE,SCI,2017.09
  • 38、Spatio-temporal changes of precipitation and temperature over the Pearl River basin based on CMIP5 multi-model ensemble,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,SCI,2017.07
  • 39、Prospective scenarios of the saltwater intrusion in an estuary under climate change context using Bayesian neural networks,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,SCI,2017.05
  • 40、Analysis of multi-dimensional hydrological alterations under climate change for four major river basins in different climate zones,CLIMATIC CHANGE,SCI,2017.04
  • 41、Large-scale climate patterns and precipitation in an arid endorheic region: linkage and underlying mechanism,ENVIRONMENTAL RESEARCH LETTERS,SCI,2016.04
  • 42、Probabilistic modeling and uncertainty estimation of urban water consumption under an incompletely informational circumstance,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,SCI,2016.02
  • 43、Defining the range of ecological shelter zones in the shore zone of Three Gorges Reservoir, China,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,SCI,2014.12
  • 44、Urban water consumption in a rapidly developing flagship megacity of South China: prospective scenarios and implications,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,SCI,2013.08
  • 45、半湿润半干旱区水文预报模型研究及应用,科学出版社,专著,2018.11
  • 46、天山北坡典型流域产汇流过程及模拟研究,科学出版社,专著,2018.11
  • 47、吸水型下沉复合式绿地关键技术研究,科学出版社,专著,2020.06
  • 48、透水铺装蓄渗与堵塞机理研究,科学出版社,专著,2020.08
  • 49、湖长制政策及组织实施,中国水利水电出版社,教材,2020.11
  • 50、缺资料地区日降雨空间插值方法研究,中国农村水利水电,核心论文,2017
  • 51、江苏省滨海湿地生态系统健康评价研究,水电能源科学,核心论文,2016
  • 52、基于贝叶斯模型平均法的洪水集合概率预报,水电能源科学,核心论文,2016
  • 53、缺资料山丘区的洪水模拟与情景分析,中国农村水利水电,核心论文,2015
  • 54、南通市水资源供需平衡与承载力研究,水电能源科学,核心论文,2015
  • 55、塔里木河流域干旱态势时空变化规律分析,水电能源科学,核心论文,2015
  • 56、城市山丘区突发性洪水模拟与情景分析,水电能源科学,核心论文,2014
  • 57、黔西南地区旱涝态势变化规律分析,水电能源科学,核心论文,2014
  • 58、深圳市用水量预测及情景分析,水电能源科学,核心论文,2011
  • 59、考虑过程变化的黄河河口区水文情势变化评价,水电能源科学,2022-01-01
  • 60、考虑过程变化的黄河河口区水文情势变化评价,水电能源科学,2021-01-01
  • 61、Study on Water Absorption–Dehydration Characteristics for SAP Composite Soil for Rainwater Harvesting,Water,2020-08-25
  • 62、Some statistical inferences of parameter in MCMC approach and the application in uncertainty analysis of hydrological simulation,JOURNAL OF HYDROLOGY,2023-02-01
  • 63、融合相空间重构和深度学习的径流模拟预测,水科学进展,2023-01-01
  • 64、融合相空间重构和深度学习的径流模拟预测,水科学进展,2023-05-23
  • 65、Some statistical inferences of parameter in MCMC approach and the application in uncertainty analysis of hydrological simulation,JOURNAL OF HYDROLOGY,2023-02-01

科技成果

  • 1、基于雨胞的无线微波雨衰减模型SSIM图像相似度评价方法,CN114170427B,授权
  • 2、一种考虑微波链路高差的近地面三维立体雨量场反演方法,CN113820758B,授权
  • 3、基于毫米波数据分层智能抽样的降水类型预测方法,CN113240148B,授权
  • 4、基于频率-精度映射的毫米波衰减信号采集系统及方法,CN112750294B,授权
  • 5、测试不同振源距离下混凝土-围岩界面损伤的装置及方法,CN111487147B,授权
  • 6、测试法向振源对混凝土-围岩界面破坏效应的装置及方法,CN111487148B,授权
  • 7、一种用于超高频微波的时空协同干湿增强判别方法,CN112731567B,授权
  • 8、一种描述爆炸冲击对混凝土-围岩界面损伤的装置及方法,CN111487145B,授权
  • 9、一种逐级式线聚合降雨数据尺度转换方法,CN112668761B,授权
  • 10、一种快速收敛的超高频微波降雨数据离散化方法,CN112597647B,授权
  • 11、通过微波链路网格化自适应可变尺度反演大气能见度的方法,CN112070103B,授权
  • 12、一种基于湿天线成因判别的无线微波监测露水强度方法,CN110895251B,授权
  • 13、基于无线微波衰减特征迁移学习的浓雾监测方法,CN111274911B,授权
  • 14、基于领域自适应的微波衰减的大气PM2.5监测方法,CN111337396B,授权
  • 15、基于半监督域适应的雨、雪、冰雹分类监测方法,CN111308471B,授权
  • 16、链路长短可调的微波雨衰规律人工降雨实验方法,CN111257884B,授权
  • 17、基于适应度优化的无线微波测雨链路规划方法,CN110533233B,授权
  • 18、一种基于微波衰减特征响应指纹识别的城市降雨反演方法,CN109255100B,授权
  • 19、一种基于人工复合土壤的分层复合式下沉绿地及其应用,CN106013391B,授权
  • 20、资料缺乏地区山洪预报系统V1.0,2014SR018516
  • 21、中小流域山洪实时概率预报模型系统V1.0,2014SR018316
  • 22、气候变化下水文极值事件概率预测系统V1.0,2014SR038458
  • 23、基于HJ星数据的干旱监测系统V1.0,2013SR127255
  • 24、基于文化粒子群混沌算法的水库群联合调度系统V1.0,2015SR256210
  • 25、适应未来气候变化的山区-平原水库调节与反调节调度系统V1.0,2015SR256144

开授课程

  • 1、工程水文学,本科生
  • 2、智慧水管理,研究生
  • 3、水务科技前沿与动态(创新创业课程),本科生,79,79

教学成果

教学资源

社会职务

担任长江技术经济学会青年工作委员会副秘书长,国家自然科学基金评审专家,Journal of Hydrology、Water Science and Engineering、湖泊科学等国内外多个期刊审稿人。

荣誉及奖励

  • 1、水文全要素实验与模拟预测理论及应用,2013,大禹水利科技进步奖(省部级奖),一等奖
  • 2、干旱与半干旱区水文循环机理、模型及应用,2020,大禹水利科技进步奖(省部级),二等奖

招生信息

招收水文学及水资源、城市水务专业的学术型硕士研究生,土木水利专业硕士研究生,欢迎交流、报考!