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陈力—河海水文

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姓 名
陈  力
性 别
   
民 族
 
出生日期
 1973.10
政治面貌
 
教 龄
 
学 历
 研究生
学 位
 博士
现任职务
 
技术职称
教授
通信地址
 南京市西康路1号河海大学水文水资源学院
邮 编
 210098
电 话
 025-83787079
Email
 lchen@hhu.edu.cn

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研究方向:

k#nTg$k:]*[?0研究方向包括流域水文及环境水文、河道水动力、侵蚀与泥沙输移的机理及数值模拟等。 水利人物g2DY9YVzSS

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主要研究地表及近地表的水流运动及其引起的物质传输 过程,以及其带来的环境和生态效应。在降雨-产流过程机理与模拟、河道水流动力学、侵蚀与泥沙输移等方面做出深入研究。代表性成果包括:国际上首次建立坡 面入渗模型并阐明坡面入渗规律;发展双层入渗加二维汇流的高精度降雨-产流模型;剖析产汇流过程与植物斑块相互作用机理;建立融合流体力学及材料力学的水 流-植物相互作用模拟方法;发展细沟不平衡输沙侵蚀模型;提出推移质输沙的空间非均质性概念及其对输沙不确定性的影响等。成果发表于 Water Resources Research、Advances in Water Resources、 Journal of Hydrology等国际权威水文期刊,SCI收录论文20余篇,引用260次。水利人物 R"[D&`;Et

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“国家青年千人计划”特聘教授陈力带领的流域水文过程机理课题组欢迎相关专业的硕士、博士研究生报考或申请加入课题组!

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教育经历

T6H.|cu8@%j#G$vj01990-1994   武汉水利电力大学 河流工程系   获工学学士学位

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h%TPMC_01994-1997   武汉水利电力大学 河流工程系   获工学硕士学位水利人物j2IJs*sHX7n

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1997-2001   中科院力学所 环境流体力学室   获理学博士学位水利人物c2yO1eC2[Z#L

工作经历:

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2001-2003   Visiting scientist, University of Georgia, U.S.

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2003-2013   Postdoctoral Fellow/Assistant Research Professor/Associate Research Professor

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4mKmxu ?;~1tn0                     Desert Research Institute, U.S. 水利人物+V?eAQ&e.{2eX

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2013-至今   河海大学水文水资源学院,国家青年千人计划特聘教授,博士生导师水利人物BSPG0i'j `O Mp2N

学术任职:

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学术期刊审稿人:Water Resource Research, Advances in Water Resources, Hydrology and Earth System Sciences, Journal of Hydrology, Hydrologic Science Journal, Vadose Zone Journal, Soil Sciences Society of American Journal, Journal of American Water Resources Association, Journal of Hydrological Engineering, International Journal of Wildland Fire

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a!_i^loqE2gE,S0评审委员:George B. and Jane C. Maxey Research Paper AwardJudge of AGU Hydrology Session’s Outstanding Student Paper Award (OSPA)水利人物(hIt `#~ vT-A

科研项目:

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1. 国家自然科学基金:概念模型的假设检验

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2. 青年千人自由探索研究项目水利人物7{*H2D9J V7bl/{*K

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3. 江苏省双创计划创新个人研究项目:地表-地下水文系统多尺度耦合机理及模拟方法研究水利人物yQ`w&b3j+j/l Y

S H^4l$E,W*N04. Collaborative Research: Predicting the Interactions between Flow, Sediment, and Riparian Vegetation, U.S. Bureau of Reclamation

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H'QXt S2W05. Evaluation of Floodplain Function for Flood Control and Stream Restoration, U.S. Army Corps of Engineers.

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6lgf0v!BXk qM06. Modeling Soil-Water-Vegetation Response to Climate Change, International Arid Lands Consortium (IALC).

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5{vd#aPxe5g07. Wildfire impact on Virgin River water quality and fish population, Washington County Water Conservancy District水利人物,o7m*z#k)KR Z([*`

vm.R vDn-~S08. Rapid watershed characterization on Southwestern U.S.U.S. Army Corps of Engineers水利人物)sxVH$|

8l:]6iCv09. Rawhide Watershed study, Flood Control District of Maricopa County

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10. Rainbow Wash Watershed study, Flood Control District of Maricopa County

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11. Post-Fire Debris Flow in the Southwestern US – An Increase in Risk due to Climate Change, U.S. Army Corps of Engineers.

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i(Og'E \WN6e012. Effect of sediment yield from tributary on sediment transport feature of mainstream Rio Grande. U.S. Army Corps of Engineers 水利人物O;cR W#Cq~)`

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13. Estimation of short-duration volume-frequency relationships in arid/semi-arid watersheds- Phase IV, U.S. Army Corps of Engineers水利人物F*M0bS1U0g_v

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14. Wildfire Impact on watershed hydrological processes. U.S. Army Corps of Engineers.

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rFbt ?zQ015. Assess and Improve Infiltration Analyses to Support Estimates of Recharge and Initial Abstraction. U.S. Army Corps of Engineers水利人物5r;ZC fvQ C

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16. Guidance for sedimentation modeling in stream restorations, U.S. Army Corps of Engineers

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2e,k `t.iw9d-]r017. Soil heterogeneity and moisture distribution due to rainfall events in vegetated desert areas: Potential impact on soil recharge and ecosystems. U.S. Geological Survey

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主要论著

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1. Chen, L., Xiang, L., Young, M.H., Yin, J., Yu, Z.B., van Genuchten, M.T. Optimal parameters for the Green-Ampt infiltration model under rainfall conditions. Journal of Hydrology and Hydromechanics (in press).水利人物N$M&X-R1@;AeX[8N5r

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2. Chen, L.,Acharya, K., andStone, M. (2014). Using a mechanical approach to quantify flow resistance by submerged, flexible vegetation - a revisit of Kouwen's approach.Advances in Water Resources. Vol.73, 198-202.

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3. Sun, H., Chen, D., Zhang, Y., Chen, L. (2014). Understanding partial bed-load transport: experiments and stochastic model analysis. Journal of Hydrology. doi:10.1016/j.jhydrol.2014.11.064水利人物N3Y7T A;o_

val)SV}M.v_3`"a F04. Zhang, Y., Chen, L., Reeves, D.M., Sun, H., (2014). A fractional-order tempered-stable continuity model to capture surface water runoff. Journal of Vibration and Control. doi:10.1177/1077546314557554.水利人物P5C&y.M8W

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5. Zhang, Y., Martin, R.L., Chen, D., Baeumer, B., Sun, H., Chen, L., (2014). A subordinated advection model for uniform bedload transport from local to regional scales. J. Geophys. Res. Earth Surf. 2014JF003145. doi:10.1002/2014JF003145.

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6. Chen, X., Zhao, J., and Chen, L. (2014). Experimental and Numerical Investigation of Preferential Flow in Fractured Network with Clogging Process. Mathematical Problems in Engineering, vol. 2014, Article ID 879189, 13 pages, 2014. doi:10.1155/2014/879189. 水利人物5U$a Ku S ? RH

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7. Thompson, S. E., Assouline, S., Chen, L., Trahktenbrot, A., Svoray, T., and Katul, G. G. (2014). Secondary dispersal driven by overland flow in drylands: Review and mechanistic model development. Movement Ecology, 2(1), 7. 水利人物 y)i(Fo)N|;R

[1QC n!Gc08. Chen, L., S. Sela, T. Svoray, and S. Assouline, (2013) The role of soil surface sealing, microtopography and vegetation patches in rainfall-runoff processes in semiarid areas. Water Resources Research, 49, 55855599, doi:10.1002/wrcr.20360.水利人物*eeQ$BA}w

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9. Chen, L. M. Berli and K. Chief (2013) Examining Modeling Approaches for the Rainfall-Runoff Process in Wildfire Affected Watersheds. Journal American Water Resources Association. DOI:10.1111/jawr.12043.水利人物feU1veq

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10. Stone, M.S., L. Chen, K. McKay, J. Goreham, K Acharya, C. Fischenich and A.B. Stone (2013). Bending of submerged woody riparian vegetation as a function of Hydraulic flow conditions. River Research and Application. 29(2), 195-205, DOI:10.1002/rra.1592.

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11. Chen, L. R. Schumer, A. Knust and W. Forsee (2012) Impact of Temporal Resolution of Flow-Duration curve on Sediment Load Estimation. Journal American Water Resources Association, 48(1). DOI:10.1111/j.1752-1688.2011.00602.x.水利人物Q8z4J2v'K$F.{"`

R6R~i S4X3Em012. Xiang L., Z. Yu, L. Chen, J. Mon, and H., Lü (2012) Evaluating coupled water, vapor and heat flows and their influence on the moisture dynamics in the arid region. Journal of Hydrological Engineering. 16(4), 565-577, DOI:10.1061/(ASCE)HE.1943-5584.0000474.

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5Nh;|0]?W\013. Chen, L. M.S. Stone, K. Acharya and K.A. Steinhaus (2011) Mechanical analysis for emergent vegetation in flowing fluids. Journal of Hydraulic Research, 49(6), 766-774.水利人物o!EH?.w1_ rK

8f/XOB4ps/t014. Chen, L. (2010), An integral approach for large deflection cantilever beams. Int J. Nonlin Mech. 10.1016/j.ijnonlinmec.2009.12.004.

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15. Chen, L., Zhu, J.; Young, M.H., Susfalk, R.B. (2009), An integrated approach to modeling solute transport in streams and canals with applications. Journal of Hydrology. v.378. n.1-2. pp.128-136. 10.1016/j.jhydrol.2009.09.012. 水利人物i&S_+i~$t$WX8nE

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16. Chen, L. and M.C. Stone (2008) Heterogeneity of Bed Material Size Distribution and Bedload Transport Uncertainty. Water Resources Research, 44, W01405, doi:10.1029/2006WR005483. 水利人物Og1V2pj6k$T]5_

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17. Liu, Q.Q, L. Chen., J.C. Li, V.P. Singh (2007), A non-equilibrium sediment transport model for rill erosion. Hydrol. Process. 21, 1074-1084.

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2T9T"e_m {018. Chen, L. and M.H. Young (2006) Green-Ampt Infiltration Model on Sloping Surfaces. Water Resources Research, 42, W07420, doi:10.1029/2005WR004468.

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9_5E!xzPy019. Duan, J.G., L. Chen and S. Scott, (2006) Application of fractional bed load transport rate to a desert gravel-bed streams. Journal of Hydraulic Research, 44(5): 624-630. 水利人物/V0Oc)M xs-^j(t Z

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20. Liu Q.Q., L. Chen., J.C. Li and V. P. Singh (2005) On roll waves in overland flow, Journal of Hydrological Engineering, 10(2): 110-117. 水利人物.h\,q.md"k:J\Q

%G D!@~4Y7Pf021. Liu Q.Q., L. Chen, J. C. Li and V. P. Singh. (2004) Two Dimensional Kinematic Wave Modeling of Overland flow, Journal of Hydrology, 291, 28-41. 水利人物*dr6` l9N7AG3M

#M!z x5pL022. Chen, L., Q.Q. Liu, J. C. Li, (2001) Runoff Generation Characteristics in Typical Erosion Regions on the Loess Plateau. International Journal of Sediment Research, 16(4). 473-485.

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