• 傅旭東
    教授 博導
    Email: xdfu@tsinghua.edu.cn
    電話:+86-10-62797071
    傳真:+86-10-62772463
    通信地址:清華大學水利水電工程系泥沙館
    郵編:100084
    教育背景
    1996.9-2001.7 清華大學 水利系水力學及河流動力學 研究生/博士
    1993.9-1996.7 清華大學 環境系環境工程專業 本科/第二學士
    1991.9-1996.7 清華大學 水利系水工建筑專業 本科/學士
    工作履歷
    2013.8 – 至今 清華大學土木水利學院 副院長
    2009.12 – 至今 清華大學水利水電工程系 教授
    2008.12 – 2013.11 清華大學水利水電工程系 河流研究所所長
    2004.12 – 2009.11 清華大學水利水電工程系 副研究員
    2003.9 – 2004,9, Regina大學(加拿大)工學院 訪問學者
    2001.8 – 2004.11, 清華大學水利水電工程系 助理研究員
    開設課程
    1)水沙兩相流動力學(研究生)
    2).河床演變學 (研究生)
    3).河床演變學基礎(本科生)
    研究領域
    固液兩相流,泥沙運動力學,山區河流與流域泥沙動力學,山洪與潰壩洪水災害
    科研項目
    國家杰出青年科學基金項目 山區河流與流域泥沙動力學 (2016.1-2020.12)
    清華大學自主科研計劃 山洪泥沙動力學的若干基礎問題 (2015.1-2017/12)
    國家自然科學基金面上項目 山洪輸沙及對震后山洪特性調整過程的影響機理、(2014.1-2017.12)
    國家十二五科技支撐計劃課題 黃河中下游高含沙洪水調控關鍵技術研究(2012.1-2015.6)
    科技部973計劃課題 山區小流域暴雨洪水演進過程與山洪災害形成機理、(2011.1-2012.12)
    國家自然科學基金優秀國家重點實驗室研究項目基金 極端條件下城市山洪災害的形成機理與模擬方法研究(2009.1- 2012.12)
    學術兼職
    中國水利學會青年科技工作委員會 副主任
    中國大壩協會青年科技工作委員會 副主任
    中國水利學會泥沙專委會 委員
    中國水土保持學會滑坡泥石流專委會 委員
    IAHR中國分會 執委
    獎勵與榮譽
    2015年 國家杰出青年基金資助
    2014年 張光斗優秀青年科技獎
    2011年 中國青年科技獎
    2010年 茅以升北京青年科技獎
    2007年 世界泥沙研究協會期刊優秀論文獎 排名2
    學術成果
    1) Wu Z, Fu X, Wang GQ. On spatial pattern of concentration distribution for Taylor dispersion process. Scientific Reports, 2016, 6: Art. 20556. Doi: 10.1038/srep20556 (2016).
    [2) Guo D, Yu B, Fu X and Li T. Improved Hillslope Erosion Module for the Digital Yellow-River Model. Journal of Hydrologic Engineering, 2015, 20(6).
    3) Zhang L, Parker G, Stark CP, Inoue T, Viparelli E, Fu X and Izumi N. Macro-roughness model of bedrock-alluvial river morphodynamics. Earth Surface Dynamics, 2015, 3(1): 113-138.
    4) Ma H, Heyman J, Fu X, Mettra F, Ancey C and Parker G. Bed load transport over a broad range of timescales: Determination of three regimes of fluctuations. Journal of Geophysical Research-Earth Surface, 2014, 119(12): 2653-2673.
    5) Ma H and Fu X. Stochastic formulation of particle kinetics in wall-bounded two-phase flows. Science China-Technological Sciences, 2014, 57(10): 2001-2011.
    6) Wang DY, Fu X, Jie YX, Dong WJ and Hu D. Simulation of pipe progression in a levee foundation with coupled seepage and pipe flow domains. Soils and Foundations, 2014, 54(5): 974-984.
    7) Wang H, Fu X, Wang Y and Wang G. A high-performance temporal-spatial discretization method for the parallel computing of river basins. Computers & Geosciences, 2013, 58: 62-68.
    8) Wang H, Fu X and Wang G. Multi-tree Coding Method (MCM) for drainage networks supporting high-efficient search. Computers & Geosciences, 2013, 52: 300-306.
    9) Gao J, Williams MW, Fu X, Wang G and Gong T. Spatiotemporal distribution of snow in eastern Tibet and the response to climate change. Remote Sensing of Environment, 2012, 121: 1-9.
    10) Ma H and Fu X. Real time prediction approach for floods caused by failure of natural dams due to overtopping. Advances in Water Resources, 2012, 35: 10-19.
    11) Liu F, Fu X, Wang G and Duan J. Physically based simulation of dam breach development for Tangjiashan Quake Dam, China. Environmental Earth Sciences, 2012, 65(4): 1081-1094.
    12) Wang H, Zhou Y, Fu X, Gao J and Wang G. Maximum speedup ratio curve (MSC) in parallel computing of the binary-tree-based drainage network. Computers & Geosciences, 2012, 38(1): 127-135.
    13) Wang H, Fu X, Wang G, Li T and Gao J. A common parallel computing framework for modeling hydrological processes of river basins. Parallel Computing, 2011, 37(6-7): 302-315.
    14) Fu XD, Liu F, Wang GQ, Xu WJ, Zhang JX. Necessity of integrated methodology for hazard mitigation of quake lakes: case study of the Wenchuan Earthquake, China. Frontiers of Architecture and Civil Engineering in China, 2011, 5(1): 1-10.
    15) Fu X, Jiang L, Wu B, Hu C, Wang G and Fei X. Sediment delivery ratio and its uncertainties on flood event scale: Quantification for the Lower Yellow River. Science China-Technological Sciences, 2010, 53(3): 854-862.
    16) Fu X, Sun Q, Wang G and Ma H. Kinetic modeling of dilute solid-liquid two-phase flows with inelastic collisions. Chinese Science Bulletin, 2009, 54(23): 4358-4364.
    17) Wang G, Liu F, Fu X and Li T. Simulation of dam breach development for emergency treatment of the Tangjiashan Quake Lake in China. Science in China Series E-Technological Sciences, 2008, 51: 82-94.
    18) Wang G, Fu X, Huang Y and Huang G. Analysis of suspended sediment transport in open-channel flows: Kinetic-model-based simulation. Journal of Hydraulic Engineering-ASCE, 2008, 134(3): 328-339.
    19) Fu X, Wang GQ and Shao XJ. Vertical disoersion of fine and coarse sediments in turbulent open-channel flows. Journal of Hydraulic Engineering-ASCE, 2005, 131(10): 877-888.
    20) Wang GQ, Fu XD, Wang XK. Kinetic modeling of constitutive relations for particle motion in low to moderately concentrated flows. International Journal of Sediment Research, 2005, 20(4): 305-318.
    21) Wang GQ and Fu X. Mechanisms of particle vertical diffusion in sediment-laden flows. Chinese Science Bulletin, 2004, 49(10): 1086-1090.
    22) 傅旭東, 王光謙. 用PDF方程法分析懸沙垂線濃度分布. 力學學報, 2003, 35(4): 393-400.
    23) 傅旭東, 王光謙. 低濃度固液兩相流的顆粒相動理學模型. 力學學報, 2003, 35(6): 650-659.
    24) Fu X, Wang GQ and Dong ZN. Theoretical analysis and numerical computation of dilute solid/liquid two-phase pipe flow. Science in China Series E-Technological Sciences, 2001, 44(3): 298-308.
    25) 王光謙, 傅旭東. 快速顆粒流本構關系在固液兩相流中的適用條件初探. 應用基礎與工程科學學報, 2000, 8(4): 416-424.
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