清华大学方红卫教授课题组

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序号	文献
122	Han, Jiale(2022级博士生); Gao, Yitian; Feng, Yixuan; Yu, Zhiwu; Wu, Jian; Fang, Hongwei. Toward mitigating the impact of non-bulk defects on describing water structure in salt aqueous solutions: Characterizing solution density with a network-based structural indicator. The Journal of Chemical Physics, 2025, 162(2).
121	Sun, Xianghan; Tian, Liqiao; Fang, Hongwei; Walling, Des E.; Huang, Lei; Park, Edward; Li, Deren; Zheng, Chunmiao; Feng, Lian. Changes in global fluvial sediment concentrations and fluxes between 1985 and 2020. Nature Sustainability, 2025.
120	Fang, Hongwei; He, Guojian; Huang, Lei; Zhao, Chenwei; Wang, Jianyu; Han, Yong; Gao, Qifeng; Zhang, Tao; Meng, Jianan. Altered flow and sediment transport impacts on the ecosystems of Chinese major rivers: An urgent call for eco-fluvial dynamics. River, 2024, 3(4): 341-361.
119	Xu, Yang; Feng, Lian; Fang, Hongwei; Song, Xiao-Peng; Gieseke, Fabian; Kariryaa, Ankit; Oehmcke, Stefan; Gibson, Luke; Jiang, Xiating; Lin, Ruimin; Woolway, R. Iestyn; Zheng, Chunmiao; Brandt, Martin; Fensholt, Rasmus. Global mapping of human-transformed dike-pond systems. Remote Sensing of Environment, 2024, 313: 114354.
118	Wang, Jianyu(2018级博士生); He, Guojian; Huang, Lei; Dey, Subhasish; Fang, Hongwei. Drag Force on Submerged Flexible Vegetation in an Open-Channel Flow. Water Resources Research, 2024, 60(10).
117	Liu, Yan; Tang, Zhengdao; Huang, Lei; Stoesser, Thorsten; Fang, Hongwei. On the role of the Froude number on flow, turbulence, and hyporheic exchange in open-channel flow through boulder arrays. Physics of Fluids, 2024, 36(9).
116	Gao, Yitian(2019级博士生); Wu, Jian; Feng, Yixuan; Han, Jiale; Fang, Hongwei. Effects of Hydrogen Bond Networks on Viscosity in Aqueous Solutions. Journal of Physical Chemistry B, 2024.
115	Chen, Zhang-Long(2022级博士后); He, Guojian; Huang, Lei; Shen, Xiaolong; Reible, Danny; Fang, Hongwei. Analytical model of contaminant advection, diffusion and degradation in capped sediments and sensitivity to flow and sediment properties. Journal of Hydrology, 2024, 640.
114	Chen, Zonghong(2021级博士生); He, Guojian; Fang, Hongwei; Liu, Yan; Dey, Subhasish. Influence of Bioroughness Density on Turbulence Characteristics in Open-Channel Flows. Journal of Hydraulic Engineering, 2024, 150(4).
113	Huang, Lei; Xu, Xingya; Fang, Hongwei; He, Guojian; Gao, Qifeng; Wang, Kai; Gao, Liang. Improved data assimilation for algal bloom dynamics simulation in the Three Gorges Reservoir using particle filter. Science of the Total Environment, 2024, 926.
112	Gao, Yitian(2019级博士生); Wu, Jian; Feng, Yixuan; Han, Jiale; Fang, Hongwei. Structural effects of water clusters on viscosity at high shear rates. The Journal of Chemical Physics, 2024, 160(10).
111	Wang, Kai; Huang, Lei; He, Guojian; Liu, Yan; Xu, Song; He, Ding; Bai, Sen; Reible, Danny; Fang, Hongwei. Crucial Role of Tributary Bays in the Carbon Burial of Three Gorges Reservoir. Acs Es&T Water, 2024.
110	Huang, Lei; Meng, Jianan; Xu, Fuliu; Zhou, Ya; He, Guojian; Wang, Kai; Fang, Hongwei. A holistic view of aquatic ecosystems: Integrating health and integrity, network, stability, and regime shift assessments. International Journal of Sediment Research, 2024, 39(1): 1-14.
109	Zhao, Chenwei(2016级博士生); Fang, Hongwei; Ouro, Pablo; Stoesser, Thorsten; Dey, Subhasish. Response of Bedload and Bedforms to Near-Bed Flow Structures. Journal of Hydraulic Engineering, 2024, 150(1).
108	Cui, Zhenghui(2013级博士生); Huang, Lei; Fang, Hongwei; Han, Dong; Bombardelli, Fabian. Exploring Cohesive Sediment Flocculation With Surface Heterogeneity: A Theoretical Lagrangian-Type Flocculation Model. Water Resources Research, 2023, 59(11).
107	Fu, Jiahao(2021级硕士生); He, Guojian; Huang, Lei; Dey, Subhasish; Fang, Hongwei. Swaying motions of submerged flexible vegetation. Journal of Fluid Mechanics, 2023, 971.
106	Chen, Zhang-Long(2022级博士后); Huang, Yiyi; Fang, Hongwei; Yeh, Tian-Chyi Jim; Zha, Yuanyuan. An Exact Solution to the Linearized Richards Equation for Layered Media With Flexible Initial Condition. Water Resources Research, 2023, 59(9).
105	Wang, Jianyu(2018级博士生); He, Guojian; Huang, Lei; Dey, Subhasish; Fang, Hongwei. Effects of Submerged Flexible Vegetation on Scalar Transport in an Open-Channel Flow. Water Resources Research, 2023, 59(9).
104	Cui, Zhenghui(2013级博士生); Huang, Lei; Fang, Hongwei; Bombardelli, Fabian; Wang, Dianchang; Wu, Xinghua. Attachment efficiency among fine sediment considering surface heterogeneity. Journal of Hydraulic Research, 2023, 61(4): 452-469.
103	Wang, Keyuan(2020级博士后); Huang, Lei; He, Guojian; Fang, Hongwei; Chen, Minghong; Wang, Dianchang; Wu, Xinghua. Spatial-temporal evolution of sediment transport in the upper Yangtze River Basin considering the cumulative impacts of mega reservoirs. Catena, 2023, 232, 107370.
102	Li, Xiaocui(2017级博士生); Huang, Lei; Reible, Danny; Zeng, Xiong; Liu, Siwen; Fu, Jiahao; Wang, Kai; Fang, Hongwei. Inhibition of sediment erosion and phosphorus release by remediation strategy of contaminated sediment backfilling. Water Research, 2023, 239, 120055
101	Wang, Kai(2020级博士后); Fang, Hongwei; He, Guojian; Huang, Lei; Cui, Zhenghui; Gao, Qifeng; Xu, Song; Wang, Dianchang; Wu, Xinghua; He, Ding. Optical and molecular diversity of dissolved organic matter in sediments of the Daning and Shennong tributaries of the Three Gorges Reservoir. Frontiers In Environmental Science. 2023, 10, 1112407
100	Xu, Song(2020级博士生); He, Guojian; Fang, Hongwei; Liu, Siwen; Bai, Sen. Effect of soil moisture on the multi-component decomposition of wetland macrophytes. Hydrobiologia. 2023, 850(3):503-517
99	Wang, Jianyu(2018级博士生); He, Guojian; Dey, Subhasish; Fang, Hongwei. Fluid structure interaction in a flexible vegetation canopy in an open channel. Journal of Fluid Mechanics, 2022, 951: A41.
98	Wang, Jianyu(2018级博士生); He, Guojian; Dey, Subhasish; Fang, Hongwei. Influence of submerged flexible vegetation on turbulence in an open-channel flow. Journal of Fluid Mechanics, 2022, 947: A31.
97	Liu, Yan(2012级博士生); Stoesser, Thorsten; Fang, Hongwei. Effect of secondary currents on the flow and turbulence in partially filled pipes. Journal of Fluid Mechanics, 2022, 938. A16.
96	An, Chenge; Fang, Hongwei; Zhang, Li; Su, Xinyue; Fu, Xudong; Huang, Heqing; Parker, Gary; Hassan, Marwan; Meghani, Nooreen; Anders, Alison; Wang, Guangqian. Poyang and Dongting Lakes, Yangtze River: Tributary lakes blocked by main-stem aggradation. Proceedings of the National Academy of Sciences of the United States of America, 2022, 119(30): e2101384119.
95	Liu, Yan(2012级博士生); Stoesser, Thorsten; Fang, Hongwei. Impact of turbulence and secondary flow on the water surface in partially filled pipes. Physical of Fluids, 2022, 34(3): 035123.
94	Zhao, Chenwei(2016级博士生); Pablo, Ouro; Stoesser, Thorsten; Dey, Subhasish; Fang, Hongwei. Response of flow and saltating particle characteristics to bed roughness and particle spatial density. Water Resources Research, 2022, 58(3): e2021WR030847.
93	Zeng, Xiong(2021级博士生); Huang, Lei; He, Guojian; Wang, Dianchang; Wu, Xinghua; Fang, Hongwei. Phosphorus transport in the Three Gorges Reservoir over the past two decades. Journal of Hydrology, 2022, 609: 127680.
92	Gao, Yitian(2019级博士生); Fang, Hongwei; Ni, Ke; Feng, Yixuan. Water clusters and density fluctuations in liquid water based on extended hierarchical clustering methods. Scientific Reports, 2022, 12(1): 1-11.
91	Feng, Yixuan(2020级博士生); Fang, Hongwei; Gao, Yitian; Ni, Ke. Hierarchical clustering analysis of hydrogen bond networks in aqueous solutions. Physical Chemistry Chemical Physics, 2022, 24(16), 9707-9717.
90	Meng, Jianan(2018级博士生); Fang, Hongwei; Huang, Lei; He, Guojian; Liu, Xiaobo; Xu, Changyi; Wu, Xinghua; Scavia, Donald. Multidimensional ecosystem assessment of Poyang Lake under anthropogenic influences. Ecological Modelling, 2022, 473: 110134.
89	Xu, Song(2020级博士生); He, Guojian; Fang, Hongwei; Bai, Sen; Wu, Xinghua. Parameter uncertainty and sensitivity analysis of the three Gorges Reservoir and Xiangxi River EFDC model. Journal of Hydrology, 2022, 610: 127881.
88	Liu, Siwen(2021级硕士生); He, Guojian; Fang, Hongwei; Xu, Song; Bai, Sen. Effects of dissolved oxygen on the decomposers and decomposition of plant litter in lake ecosystem. Journal of Cleaner Production, 2022, 372: 133837.
87	Huang, Lei(2009级博士生); Gao, Qifeng; Fang, Hongwei; He, Guojian; Reible, Danny; Wang, Dianchang; Wu, Xinghua. Effects of bedform migration on nutrient fluxes at the sediment-water interface: a theoretical analysis. Environmental Fluid Mechanics. 2022, 22:447-466
86	Wu, Yuyang(2018级博士后); Fang, Hongwei; He, Guojian; Huang, Lei; Wang, Jianyu. Climate-driven changes in hydrological and hydrodynamic responses in the Yarlung Tsangpo River. Journal of Hydrology, 2021, 598: 126267.
85	Li, Xiaocui(2017级博士生); Huang, Lei; Fang, Hongwei; Chen, Minghong; Cui, Zhenghui; Sun, Zhiyu; Reible, Danny. Phosphorus adsorption by sediment considering mineral composition and environmental factors, Environmental Science and Pollution Research, 2021, 28(14): 17495-17505.
84	Gao, Yitian(2019级博士生); Fang, Hongwei; Ni, Ke. A hierarchical clustering method of hydrogen bond networks in liquid water undergoing shear flow. Scientific Reports, 2021, 11(1): 1-14.
83	Meng, Jianan(2018级博士生); Fang, Hongwei; Scavia, Donald. Application of ecosystem stability and regime shift theories in ecosystem assessment-calculation variable and practical performance. Ecological Indicators, 2021, 125: 107529.
82	Wang, Jianyu(2018级博士生); He, Guojian; Fang, Hongwei; Han, Yong. Climate change impacts on the topography and ecological environment of the wetlands in the middle reaches of the Yarlung Zangbo-Brahmaputra River. Journal of Hydrology, 2020. 590: 125419
81	Wu, Yuyang(2018级博士后); Fang, Hongwei; Huang, Lei; Cui, Zhenghui. Particulate organic carbon dynamics with sediment transport in the upper Yangtze River. Water Research, 2020, 184:116193
80	Han, Yong(2015级博士生); Sun, Zhiyu; Fang, Hongwei; Bai, Sen; Huang, Lei; He, Guojian. Habitat succession of the Yangtze finless porpoise in Poyang Lake under the changing hydrodynamic and feeding environment. Ecological Modelling, 2020. 424:109035
79	Sharma, A(2018级博士后); Huang, Lei; Fang, Hongwei; Li, Xiaocui. Effects of hydrodynamic on the mobility of phosphorous induced by sediment resuspension in a seepage affected alluvial channel. Chemosphere, 2020. 260:127550
78	Wu, Yuyang(2018级博士后); Fang, Hongwei; Huang, Lei; Ouyang, Wei. Changing runoff due to temperature and precipitation variations in the dammed Jinsha River. Journal of Hydrology. 2020. 582:124500
77	Zhao, Chenwei(2016级博士生); Fang, Hongwei; Liu, Yan; Dey, Subhasish; He, Guojian. Impact of Particle Shape on Saltating Mode of Bedload Transport Sheared by Turbulent Flow. Journal of Hydraulic Engineering. 2020, 146(5):04020034
76	He, Guojian(2004级博士生); Fang, Hongwei; Wang, Jianyu; Zhang, Tao. From fluvial dynamics to eco-fluvial dynamics. International Journal of Sediment Research, 2019, 34(6): 531-536
75	He, Guojian(2004级博士生); Han, Xu; Fang, Hongwei; Reible, Danny; Huang, Lei. Effects of Roughness Reynolds Number on Scalar Transfer Mechanisms at the Sediment-Water Interface. Water Resources Research, 2019, 55(8): 6811-6824
74	Han, Yong(2015级博士生); Fang, Hongwei; Huang, Lei; Li, Songheng; He, Guojian. Simulating the distribution of Corbicula fluminea in Lake Taihu by benthic invertebrate biomass dynamic model (BIBDM). Ecological Modelling, 2019, 409:108730
73	Li, Xiaocui(2017级博士生); Huang, Lei; Fang, Hongwei; He, Guojian; Reible, Danny; Wang, Changhui. Immobilization of phosphorus in sediments by nano zero-valent iron (nZVI) from the view of mineral composition. Science of the Total Environment, 2019, 694:133695
72	Liu, Yan(2012级博士生); Fang, Hongwei, Huang, Lei; He, Guojian. Numerical simulation of the production of three-dimensional sediment dunes. Physics of Fluids, 2019, 31(9):96603
71	Liu, Yan(2012级博士生); Reible, Danny; Hussain, Fazle; Fang, Hongwei. Role of Bioroughness, Bioirrigation, and Turbulence on Oxygen Dynamics at the Sediment-Water Interface. Water Resources Research, 2019, 55(10): 8061-8075
70	Ni, Ke(2013级博士生); Fang, Hongwei; Yu, Zhiwu; Fan, Zhaosheng. The velocity dependence of viscosity of flowing water. Journal of Molecular Liquids, 2019. 278: 234-238
69	Fang, Hongwei; Ni, Ke; Wu Jian; Li, Jun; Huang, Lei; Reible, Danny. The effects of hydrogen bonding on the shear viscosity of liquid water. International Journal of Sediment Research, 2019, 34(1): 8-13
68	Han, Xu(2016级博士生); Fang, Hongwei; Johnson, M.F.; Rice, S. P.. The Impact of Biological Bedforms on Near-Bed and Subsurface Flow: A Laboratory-Evaluated Numerical Study of Flow in the Vicinity of Pits and Mounds. Journal of Geophysical Research-Earth Surface, 2019, 124(7): 1939-1957
67	Huang, Lei(2009级博士生); Li, Xiang; Fang, Hongwei; Yin, Dongqin; Si, Yuan; Wei, Jiahua; Liu, Jiahong; Hu, Xiaoyong; Zhang, Li. Balancing social, economic and ecological benefits of reservoir operation during the flood season: A case study of the Three Gorges Project, China. Journal of Hydrology, 2019, 572:422-434
66	Gao, Qifeng(2015级博士生); He, Guojian; Fang, Hongwei; Bai, Sen; Huang, Lei. Numerical simulation of water age and its potential effects on the water quality in Xiangxi Bay of Three Gorges Reservoir. Journal of Hydrology, 2018, 566: 484-499
65	Cheng, Wei(2011级博士生); Fang, Hongwei; Lai, Haojie; Huang, Lei; Dey, Subhasish. Effects of biofilm on turbulence characteristics and the transport of fine sediment. Journal of Soils and Sediments, 2018, 18(10): 3055-3069
64	Xu, Xingya(2011级博士生); Zhang, Xuesong; Fang, Hongwei; Lai, Ruixun; Zhang, Yuefeng; Huang, Lei; Liu, Xiaobo. Improving the real-time probabilistic channel flood forecasting by incorporating the uncertainty of inflow using the particle filter. Journal of Hydrodynamics, 2018, 30(5): 828-840
63	Fang, Hongwei; Han, Xu; He, Guojian; Dey, Subhasish. Influence of permeable beds on hydraulically macro-rough flow. Journal of Fluid Mechanics, 2018, 847: 552-590
62	Lai, Haojie(2014级博士生); Fang, Hongwei; Huang, lei; He, Guojian; Reible, Danny. A review on sediment bioflocculation: dynamics, influencing factors and modeling. Science of the Total Environment, 2018, 642: 1184–1200
61	Tang Guanming, Fang, Hongwei, Dey Subhasish; Wu Weiming. Rui-Jin Zhang's Research on Sediment Transport. Journal of Hydraulic Engineering, 2018, 144(6):2518002
60	Han, Xu(2016级博士生); Fang, Hongwei; He, Guojian; Reible, Danny. Effects of roughness and permeability on solute transfer at the sediment water interface. Water Research. 2018, 129: 39-50
59	Fang, Hongwei; Cui, Zhenghui; He, Guojian; Huang, Lei; Chen, Minghong. Phosphorus adsorption onto clay minerals and iron oxide with consideration of heterogeneous particle morphology. Science of the Total Environment, 2017, 605: 357-367
58	Cui, Zhenghui(2013级博士生); Fang, Hongwei; Huang, Lei; Ni, Ke; Reible, Danny. Effect of surface heterogeneity on phosphorus adsorption onto mineral particles: experiments and modeling. Journal of Soils and Sediments, 17(12): 2887-2898
57	Fang, Hongwei; Liu, Yan; Stosser, Thorsten. Influence of boulder concentration on turbulence and sediment transport in open-channel flow over submerged boulders. Journal of Geophysical Research-Earth Surface. 2017, 122(12): 2392-2410
56	Liu, Yan(2012级博士生); Stosser, Thorsten; Fang, Hongwei; Papanicolaou, Athanasios; Tsakiris, Achilleas G. Turbulent flow over an array of boulders placed on a rough, permeable bed. Computers and Fluids, 2017, 158: 120-132
55	Fang, Hongwei; Lai, Haojie; Chen Wei; Huang, Lei; He, Guojian. Modeling sediment transport with an integrated view of the biofilm effects. Water Resources Research, 2017, 53(9): 7536-7557
54	Han, Xu(2016级博士生); Fang, Hongwei; He, Guojian. Double-averaging analysis of turbulent kinetic energy fluxes and budget based on large-eddy simulation. Journal of Hydrodynamics, 2017, 29(4): 567-574
53	Fang, Hongwei; Chen, Yishan; Huang, Lei; He GuoJian. Biofilm growth on cohesive sediment deposits: laboratory experiment and model validation. Hydrobiologia, 2017, 799(1): 261-274, DOI 10.1007/s10750-017-3224-1
52	Fang, Hongwei; Chen, Yishan; Huang, Lei; He, Guojian. Analysis of biofilm bacterial communities under different shear stresses using size-fractionated sediment. Scientific Reports, 2017, 7:1299
51	Fang, Hongwei; Cheng, Wei; Fazeli, Mehdi; Dey, Subhasish. Bedforms and flow resistance of cohesive beds with and without biofilm coating. Journal of Hydraulic Engineering, 2017, 143(8):6017010
50	Huang, Lei(2009级博士生); Fang, Hongwei; Xu, Xingya; He, Guojian; Zhang, Xuesong; Reible, Danny. Stochastic modeling of phosphorus transport in the Three Gorges Reservoir by incorporating variability associated with the phosphorus partition coefficient. Science of the Total Environment, 2017, 592: 649-661
49	Xu, Xingya(2011级博士生); Zhang, Xuesong; Fang, Hongwei; Lai, Ruixun; Zhang, Yuefeng; Huang, Lei; Liu, Xiaobo. A real-time probabilistic channel flood-forecasting model based on the Bayesian particle filter approach. Environmental Modelling & Software, 2017, 88: 151-167
48	Huang, Lei(2009级博士生); Fang, Hongwei; He, Guojian; Jiang, Helong; Wang, Changhui. Effects of internal loading on phosphorus distribution in the Taihu Lake driven by wind waves and lake currents. Environmental Pollution, 2016, 219: 760-773
47	Fang, Hongwei; Dai, Dongchen; Li Songheng; He GuoJian; Huang Lei; Peng Wenqi. Kinetic theory for aquatic animal distribution simulation. Science China – Technological Sciences, 2016, 59(12): 1856-1866
46	Fang, Hongwei; Fazeli, Mehdi; Cheng, Wei; Dey, Subhasish. Transport of biofilm-coated sediment particles. Journal of Hydraulic Research, 2016, 54(6): 631-645
45	Dai, Dongchen(2012级博士生); Fang, Hongwei; Li, Songheng; He, Guojian; Huang, Lei; Peng, Wenqi. Numerical simulation of fish movement behavior for habitat assessment by Eulerian-Eulerian-Habitat-Selection (EEHS) method. Ecological Modelling, 2016, 337: 156-167
44	Huang, Lei(2009级博士生); Fang, Hongwei; He, Guojian; Chen, Minghong. Phosphorus adsorption on natural sediments with different pH incorporating surface morphology characterization. Environmental Science and Pollution Research, 2016, 23(18): 18883-18891
43	Fang, Hongwei; Lai, Ruixun; Lin, BinLiang; Xu, Xingya; Zhang, FangXiu; Zhang, YueFeng. Variational-Based Data Assimilation to Simulate Sediment Concentration in the Lower Yellow River, China. Journal of Hydrologic Engineering-ASCE, 2016, 21(5):04016010
42	Fang, Hongwei; Dai, Dongchen; Li, Songheng; He, Guojian; Huang, Lei. Forecasting Yangtze finless porpoise movement behavior using an Eulerian-Eulerian-diffusion method (EEDM). Ecological Engineering, 2016, 88: 39-52
41	Fang, Hongwei; Huang, Lei; Wang, Jingyu; He Guojian; Reible Danny. Environmental Assessment of Heavy Metal Transport and Transformation in the Hangzhou Bay, China. Journal of Hazardous Materials, 2016, 302: 447-457
40	Huang, Lei(2009级博士生); Fang, Hongwei; Reible, Danny. Mathematical model for interactions and transport of phosphorus and sediment in the Three Gorges Reservoir. Water Research, 2015, 85: 393-403
39	Huang, Lei(2009级博士生); Fang, Hongwei; Fazeli, Mehdi; Chen, Yishan; He, Guojian; Chen, Daoyi. Mobility of phosphorus induced by sediment resuspension in the Three Gorges Reservoir by flume experiment. Chemosphere, 2015, 134: 374-379
38	Fang, Hongwei; Zhao, Huiming; Chen, Zhihe; Zhang, Yuefeng. 3D shape and morphology characterization of sediment particles. Granular Matter, 2015, 17(1): 135-143
37	Shang, Qianqian(2006级博士生); Fang, Hongwei; Zhao, Huiming; Cui, Zhenghui. Biofilm effects on size gradation drag coefficient and settling velocity of sediment particles. International Journal of Sediment Research, 2014, 29(4): 471-480
36	Wang, Jingyu(2009级博士生); Fang, Hongwei; He, Guojian; Huang, Lei. A model of Sr-90 distribution in the sea near Daya Bay Nuclear Power Plant in China. Frontiers of Environmental Science & Engineering, 2014, 8(6): 845-853
35	Fang, Hongwei; Chen, Minghong; Chen, Zhihe; Zhao, Huiming; He, Guojian. Simulation of sediment particle surface morphology and element distribution by the concept of mathematical sand. Journal of Hydro-Environment Research, 2014, 8(3): 186-193
34	Fang, Hongwei; Bai, Jing; He, Guojian; Zhao, Huiming. Calculations of Nonsubmerged Groin Flow in a Shallow Open Channel by Large-Eddy Simulation. Journal of Engineering Mechanics, 2014, 140(5):04014016
33	Fang, Hongwei; He, Guojian; Han, Dong; Duan, Jiehui; Huang, Lei; Chen, Minghong. Fluvial processes and their impact on the finless porpoise's habitat after the Three Gorges Project became operational. Science China-Technological Sciences, 2014, 57(5): 1020-1029
32	Fang, Hongwei; Shang, Qianqian; Chen, Minghong; He, Guojian. Changes in the critical erosion velocity for sediment colonized by biofilm. Sedimentology, 2014, 61(3): 648-59
31	Chen, Minghong(2003级博士生); Fang, Hongwei; Huang, Lei. Surface charge distribution and its impact on interactions between sediment particles. Ocean Dynamics. 2013, 63(9-10): 1113-1121
30	Lai, Ruixun(2010级博士生); Fang, Hongwei; He, Guojian. Dual state-parameter optimal estimation of one-dimensional open channel model using ensemble Kalman filter. Journal of Hydrodynamics, 2013, 25(4): 564-571
29	Wang, Jingyu(2009级博士生); Tang, Hansong; Fang, Hongwei. A fully coupled method for simulation of wave – current - seabed systems. Communications in Nonlinear Science and Numerical Simulation, 2013, 18(7): 1694-1709
28	Bai, Jing(2008级博士生); Fang, Hongwei; Stoesser, Thorsten. Transport and deposition of fine sediment in open channels with different aspect ratios. Earth Surface Processes and Landforms, 2013, 38(6): 591-600
27	Fang, Hongwei; Chen, Minghong; Chen, Zhihe; Zhao, Huiming; He, Guojian. Effects of sediment particle morphology on adsorption of phosphorus elements. International Journal of Sediment Research, 2013, 28(2): 246-253
26	Chen, Zhihe(2004级博士生); Fang, Hongwei. Analysis of the complex morphology of sediment particle surface based on electron microscope images. Science China-Technological Sciences, 2013, 56(2): 280-285
25	Huang, Lei(2009级博士生); Fang, Hongwei; Chen, Minghong. Experiment on surface charge distribution of fine sediment. Science China-Technological Sciences, 2013, 55(4): 1146-1152
24	Fang, Hongwei; Zhao, Huiming; Shang, Qianqian; Chen, Minghong. Effect of biofilm on the rheological properties of cohesive sediment. Hydrobiologia, 2012, 694(1): 171-181
23	Fang, Hongwei; Han, Dong; He, Guojian; Chen, Minghong. Flood management selections for the Yangtze River midstream after the Three Gorges Project operation. Journal of Hydrology, 2012, 432: 1-11
22	Zhao, Huiming(2005级博士生); Fang, Hongwei; Chen, Minghong. Floc architecture of bioflocculation sediment by ESEM and CLSM. Scanning, 2011, 33(6): 437-445
21	Han, Dong(2006级博士生); Fang Hongwei; Bai, Jing; He, Guojian. A coupled 1-D and 2-D channel network mathematical model used for flow calculations in the middle reaches of the Yangtze River. Journal of Hydrodynamics, 2011, 23(4): 521-526
20	He, Guojian(2004级博士生); Fang, Hongwei; Bai, Sen; Liu, Xiaobo; Chen, Minghong; Bai, Jing. Application of a three-dimensional eutrophication model for the Beijing Guanting Reservoir, China. Ecological Modelling, 2011, 222(8): 1491-1501
19	Fang, Hongwei; He, Guojian; Wang, Lixu. Influence of vertical resolution and non-equilibrium model on three dimensional calculations of flow and sediment transport. Journal of Hydraulic Engineering-ASCE, 2010, 136(2): 122-128
18	He, Guojian(2004级博士生); Fang, Hongwei; Chen, Minghong. Multidimensional upwind scheme of diagonal Cartesian method for an advection-diffusion problem. Computers and Fluids, 2009, 38(5): 1003-1010
17	Fang, Hongwei; Chen, Minhong; Chen, Qianhai. One-dimensional numerical simulation of non-uniform sediment transport under unsteady flows. International Journal of Sediment Research, 2008. 23(4): 316-328
16	Fang, Hongwei; Chen, Minhong; Chen, Zhihe. Surface pore tension and adsorption characteristics of polluted sediment. Science in China Series G-Physics Mechanics & Astronomy, 2008, 51(8): 1022-1028
15	Fang, Hongwei; He, Guojian; Liu, JinZe; Chen, Minghong. 3D Numerical Investigation of Distorted Scale in Hydraulic Physical Model Experiments. Journal of Coastal Research Special Issue, 2008, 52: 41-53
14	Chen, Zhihe(2004级博士生); Fang, Hongwei; Liu, Bin. Numerical simulation of wind-induced motion in suspended sediment transport. Journal of Hydrodynamics, 2007, 19(6): 698-704
13	Fang, Hongwei; Liu, Bin; Huang, Bingbin. Diagonal Cartesian Method for numerical simulation of flow and suspended sediment transport over complex boundaries. Journal of Hydraulic Engineering-ASCE, 2006, 132(11): 1195-1205
12	Fang, Hongwei; Rodi, Wolfgang. Three dimensional calculations of flow and suspended sediment transport in the neighborhood of the dam for the Three Gorges Project reservoir in the Yangtze River. Journal of Hydraulic Research, 2003, 41(4): 379-394
11	Fang, Hongwei; Chen, Ching-Jen; Lin, Wanlai. Three-dimensional diagonal Cartesian method for incompressible flows involving complex boundary. Numerical Heat Transfer, 2000, 38(1): 37-57
10	Fang, Hongwei, Wang, Guangqian. Three-dimensional mathematical model for suspended sediment transport. Journal of Hydraulic Engineering-ASCE. 2000, 126(8): 578-592
9	Wang, Guanqian; Fang, Hongwei. Basic Equations for Density Current. Chinese Science Bulletin, 1996, 41(16): 1402-1408
8	Fang, Hongwei. The Study on three-dimensional Mathematical model of River Bed Erosion for Water-Sediment Two-Phase Flow. Mechanic Sinica-ACTA, 1996, 12(1): 85-91
7	Fang, Hongwei. Three-dimensional mathematical model of river bed erosion by float open caisson in construction period. Science China Ser A, 1995, 38(5): 618-626
6	Fang, Hongwei. Improvement of finite-analytic discretization of incompressible three-dimensional Navier-Stokes equations. Numerical Heat Transfer, 1995, 28(2): 171-182
5	Fang, Hongwei. The Study cases of three-dimensional numerical simulation for total sediment transport. International Journal of Sediment Research, 2003, 18(2), 158-165
4	Fang, Hongwei. Three-dimensional calculations of flow and sediment transport in the neighborhood of the dam for Three-Gorge-Project reservoir in Yangtze River. Rept. Institute for Hydromechanics No.762, University of Karlsruhe, Germany. 2000
3	Fang, Hongwei. Three-dimensional calculations of flow and sediment transport in the Elbe River. Rept. Institute for Hydromechanics No.763, University of Karlsruhe, Germany. 2000
2	Zhao, Yongqing(1998级硕士生); Fang, Hongwei; Application of the multigrid method in numerical simulation of sediment transport, International Journal of Sediment Research, 1999, 14(2):133-143
1	Zheng, Bangmin; Fang, Hongwei; Stochastic process of sediment in sedimentation basin. Journal of Hydrodynamics, Ser. B. 1992, 4(4): 66-71

序号	文献
36	方红卫, 黄磊, 李晓翠, 何国建，刘晓波，彭文启.“受污染底泥环保疏浚及处理”技术规范体系建设. 中国水利, 2019,(21):52-54
35	王健宇（2018级博士生）, 何国建, 方红卫, 王远航.永定河超大洪水条件下二维水沙数值模拟. 泥沙研究, 2019,44(04):6-11
34	方红卫, 李晓翠, 黄磊, 张涛，韩旭，高圻烽.受污染底泥陶粒化回填技术及其底泥修复效果. 水资源保护, 2019,35(03):1-6+13
33	方红卫, 何国建, 黄磊, 刘延，韩旭，赵陈炜. 生态河流动力学研究的进展与挑战. 水利学报, 2019, 50(1):75-87
32	高圻烽（2015级博士生）, 何国建, 方红卫, 黄磊. 三峡库区支流中水体的垂向掺混对于藻类生长的影响. 水利学报, 2017, 48(1):96-103
31	徐兴亚（2011级博士生）, 方红卫, 黄磊, 赖瑞勋，刘晓波. 基于数据同化校正参数的河流磷迁移估计研究. 水利学报, 2017, 48(2):157-167
30	王光谦, 方红卫, 倪广恒, 阳坤，程春田，李万红. 大江大河源区河网结构与径流特性研究前沿和重要基础科学问题. 中国科学基金, 2016(1):27-33
29	柴朝晖（2014级博士后）, 方红卫, 姚仕明, 王茜. 黏性泥沙絮凝-沉降-再悬浮运动过程数学模型研究. 水利学报, 2016, 47(12):1540-1547
28	张岳峰（2012级博士后）, 方红卫, 张红武, 钟德钰，赵慧明，王新军. DWSM动态并行计算技术. 水利水电科技进展, 2015, 35(3):47-52
27	韩凤霞, 何国建, 方红卫. 三维水沙模型在永定河河势分析中的应用. 水利水电科技进展, 2014(06):56-61
26	韩冬（2006级博士生）, 方红卫, 严秉忠, 徐兴亚. 2013年中国水电发展现状. 水力发电学报, 2014(05):1-5
25	赖瑞勋（2010级博士生）, 方红卫, 徐兴亚, 张防修. 水沙实时预测数学模型研究. 水利学报, 2014(08):930-937
24	黑鹏飞（2008级博士后）, 方红卫, 陈稚聪, 夏建新. 数值切割单元法在河流数值模型中的应用前景展望. 水利学报, 2013(02):173-182
23	黄磊（2009级博士生）, 方红卫, 陈明洪. 泥沙颗粒表面电荷分布的初步研究. 中国科学:技术科学, 2012(04):395-401
22	陈明洪（2003级博士生）, 方红卫, 刘军梅. 多闸坝分汊河流的洪水实时模拟和调度. 水利水电科技进展, 2011(02):11-15
21	方红卫, 赵慧明, 何国建, 陈明洪. 泥沙颗粒生长生物膜前后表面变化的试验研究. 水利学报, 2011(03):278-283
20	赵慧明（2005级博士生）, 方红卫, 尚倩倩. 生物絮凝泥沙的干容重研究. 泥沙研究, 2010(06):23-28
19	谢作涛（2006级博士后）, 方红卫, 仲志余. 荆江-洞庭湖复杂河网洪水演进数学模型研究. 泥沙研究, 2010(03):38-43
18	郑毅（2005级博士生）, 方红卫, 何国建, 赵慧明. 基于径向基函数的多闸门控制河流的洪水模拟. 清华大学学报(自然科学版), 2008(12):2061-2064
17	何国建（2004级博士生）, 赵慧明, 方红卫. 潮汐影响下电厂温排水运动的三维数值模拟. 水力发电学报, 2008(03):125-131
16	方红卫, 郑毅, 张彬, 韩冬，陶迎春. 青岛大沽河流域防洪决策支持系统. 水利水电科技进展, 2008(03):66-69
15	郑毅（2005级博士生）, 方红卫, 韩冬. DWSM模型产汇流模块的原理及应用. 南水北调与水利科技, 2008(03):28-31
14	赵慧明（2005级博士生）, 方红卫, 何国建, 韩凤霞，赵月芬. 多闸门联合调度的平面二维数学模型. 水动力学研究与进展A辑, 2008(03):287-293
13	何国建（2004级博士生）, 方红卫, 府仁寿. 桥墩群对河道水流影响的三维数值分析. 水动力学研究与进展A辑, 2007(03):345-351
12	府仁寿, 齐梅兰, 方红卫, 陈西庆. 长江上游工程对宜昌来水来沙变化的影响. 水力发电学报, 2006(06):103-110
11	郑凯（2001级硕士生）, 方红卫, 王理许. 地下水水源热泵系统中的细菌生长. 清华大学学报(自然科学版), 2005(12):1608-1612
10	府仁寿, 齐梅兰, 方红卫, 虞志英. 长江宜昌至汉口河段输沙特性分析. 水利学报, 2005(01):35-41
9	陈前海（2000级硕士生）, 方红卫, 王光谦. 三门峡库区一维非恒定非均匀泥沙输移数学模型. 水科学进展, 2004(02):160-164
8	方红卫, 王光谦. 一维全沙泥沙输移数学模型及其应用. 应用基础与工程科学学报, 2000(02):154-164
7	方红卫, 王光谦. 平面二维全沙泥沙输移数学模型及其应用. 应用基础与工程科学学报, 2000(02):165-178
6	张丽春, 方红卫, 府仁寿. 一维非恒定非均匀泥沙数学模型研究. 泥沙研究, 1998(03):83-87
5	方红卫, 陈稚聪, 王殿常, 柴宏恩，冉启华，张俊武. 调节水池对高水头船闸取水区域波动影响的数学模型. 清华大学学报(自然科学版), 1998(01):39-42.
4	王兴奎, 方红卫, 王桂仙, 陈稚聪. 三峡枢纽运行初期 32 年坝上游的通航条件. 清华大学学报(自然科学版), 1998(01):57-60
3	方红卫. 不均匀高浓度颗粒流动的极限浓度研究. 泥沙研究, 1996(01): 83-88
2	方红卫. 交替方向的三维有限分析方法. 水动力学研究与进展(A辑), 1994(05):557-565
1	方红卫. 不均匀床沙组成及起动. 水利学报, 1994(04):43-49

书名：环境泥沙的表面特性与模型

丛书系列：当代杰出青年科学文库

出版社：中国科学出版社

编著：方红卫，陈明洪，陈志和

时间：2009年1月

简介：本书所研究的泥沙是受到污染物质作用后的泥沙，为与干净的泥沙相区别，特将其称为环境泥沙。泥沙与各种污染物质相互作用的界面是泥沙颗粒的表面，正确认识泥沙颗粒表面的形貌和结构是研究泥沙与污染物质相互作用关系的基础。通过观测泥沙颗粒表面的形貌与结构，从而建立干净泥沙与环境泥沙的表面形貌与结构的模型是本书的基本研究思路和研究目标。本书第2章详细地描述了几种常用的观测泥沙颗粒的电镜设备，也正是基于这些仪器我们才看到了细小颗粒泥沙表面丰富的形貌和结构；第3章对于泥沙颗粒的定性描述集中在复杂的几何投影轮廓和表面复杂的坑洼起伏；第4章是在泥沙颗粒观测结果基础上定量描述泥沙颗粒形貌的模型；第5章为泥沙颗粒吸附磷和重金属铜离子的实验；第6章和第7章分别描述了环境泥沙颗粒表面物理特性和化学特性发生的变化；第8章是基于前面的研究结果提出建立环境泥沙的数学泥沙研究平台及其应用；第9章提出了在数学泥沙基础上研究环境泥沙输移的一位数学模型；第10章为结论与展望。

前言和目录：PDF

书名：水沙输移数学模型

丛书系列：水科学数学模型丛书

出版社：中国科学出版社

编著：方红卫，何国建，郑邦民

时间：2015年7月

简介：本书以河流和河口地区的水流运动和泥沙输移为研究对象，对工程中采用的一维、二维和三维数学模型、数值方法及其应用进行阐述，力求全面反映水沙数学模型的完整体系和最新成果。在一维数学模型中着重说明水流运动的守恒规律、悬移质泥沙运动的对流扩散和推移质泥沙运动的基本方程以及河床变形方程；对于模型采用的基本参数进行分析，包括糙率、挟沙力、恢复饱和系数、不平衡输移长度、推移质输沙率、非均匀沙、床面交换层等；对于一维数值方法进行总结。在二维数学模型中着重对求解的各种数值方法进行阐述，包括交替方向的有限差分方法、斜对角笛卡儿方法、曲线坐标方法、有限体积方法、有限元方法、有限分析方法、边界元方法、非结构网格方法等。在三维数学模型中着重对于目前应用的三维计算实例进行分析和说明，展示针对各种复杂情况的算例和说明，包括河道和河口处三维水沙模型的各种处理方法和技巧。

前言和目录：PDF

书名：Mechanics of Bio-Sediment Transport

出版社：Springer

编著：Hongwei Fang, Lei Huang, Huiming Zhao, et al.

时间：2020年

简介：The main focus of this book is the transport mechanics of sediment particles coated with microbial biofilm, which is called bio-sediment. The book also addresses the question of how to measure and simulate the considerable variation in the properties of natural sediment associated with microbial biofilm, ranging from the micro-scale surface morphology to the macro-scale sediment transport. Nowadays most studies to elucidate the mechanisms of sediment transport have concentrated on physical-chemical sediment properties, little work explicitly coupled sediment dynamics and the environmental effects under the influence of micro-ecosystem, thus leaving a serious gap in water and sediment sciences as well as water ecological research. With respect to physical-chemical sediment properties, this book has been undertaken to evaluate and quantify the effect of biological factors - biofilm on sediment transport mechanics. The chapters cover topics including development of bio-sediment and its properties; model of biofilm growth on sediment substratum; bedform and flow resistance of bio-sediment bed; incipient velocity and settling velocity of bio-sediment; bedload and suspended load transport for bio-sediment; numerical simulation of bio-sediment transport. Besides, the measurement technology, analysis method and expression approach introduced in this book combine the characteristics of hydraulic, environmental and microbial research, having more immediate innovation.This book will be of interest to researchers, managers, practitioners, policy and decision makers, international institutions, governmental and non-governmental organizations, educators, as well as graduate and undergraduate students in the field of hydraulics and river dynamics. It will help to understand the relevance of sediment transport and biofilm growth under the role of aqueous micro-ecosystem, to introduce better tools for the simulation and prediction of bio-sediment transport, and to provide a scientific basis and application foundation for the research of interaction between sediment particles and ecological and environmental factors.

序号	专利号	发明名称	授权日期	发明人
1	ZL 2014 1 0080060.9	一种基于数据同化的河道水沙实时预测方法	2016/8/24	方红卫.张岳峰.何国建.徐兴亚.
2	ZL 2014 1 0041370.X	基于双链路通信的水沙远程监测系统和方法	2017/2/15	方红卫.张岳峰.赵慧明.何国建.徐兴亚.
3	ZL 2012 1 0439742.5	一种河流生态监测方法	2015/5/13	方红卫.赵慧明.何国建.
4	ZL 2013 1 0112013.3	分层式孔隙水和地表水的同步采样装置及方法	2016/1/20	方红卫.何国建.陈明洪.
5	ZL 2013 1 0112233.6	一种生态河道模型的地形制作台架	2015/4/8	方红卫.何国建.
6	ZL 2013 1 0118709.7	生态糙率的实验方法	2016/2/10	方红卫.白静.何国建.黄炳彬.王光谦.
7	ZL 2013 1 0146367.X	一种用于顺直型河槽的阶梯堰	2015/4/29	方红卫.白静.何国建.王光谦.
8	ZL 2013 1 0250442.7	一种河道橡胶坝蓄水系统	2015/4/15	方红卫.何国建.王光谦.黄磊.
9	ZL 2013 1 0153323.X	一种河流净化系统及用该系统净化水质的方法	2016/2/10	方红卫.白静.何国建.陈明洪.
10	ZL 2018 1 1448536.4	一种底泥的处理方法	2020/7/10	方红卫.黄磊.李晓翠.张涛.韩旭.高圻烽.

序号	荣誉和奖项
1	方红卫（排名1）; 河流动力学及江河工程泥沙调控新机制, 国家自然科学二等奖, 2020（方红卫; 何国建; 王光谦; 吴保生; 黄磊）
2	方红卫（排名1）; 泥沙、核素、温排水耦合输移关键技术及在沿海核电工程中应用, 国家科技进步二等奖, 2017（方红卫; 纪平; 张红武; 赵懿珺; 何国建; 张华庆; 李孟国; 袁珏; 黄磊; 刘晓波）.
3	方红卫（个人奖）; Hans Albert Einstein Award, 美国土木工程师协会（ASCE）, 2023.
4	方红卫（排名2）; Outstanding contribution to sedimentation studies, 国际泥沙研究学会（WASER）, 2016（尚倩倩; 方红卫; 赵慧明; 何国建; 崔正辉）
5	方红卫（排名1）; 沿海核电工程核素及温排水过程模拟与水工排放口优化实践, 教育部科技进步一等奖, 2015（方红卫; 纪平; 何国建; 赵懿珺; 王光谦; 袁珏; 黄磊; 陈小莉; 王靖宇; 曾利; 秦晓; 张强; 梁洪华; 刘晓波; 康占山）.
6	方红卫（排名1）; 水沙模拟技术及其在水利电力工程中的应用, 教育部科技进步一等奖, 2008（方红卫; 何国建; 王光谦; 张庄; 郑邦民; 府仁寿; 赵月芬; 王理许; 韩凤霞; 陈明洪; 刘军梅; 陈志和; 张跃武; 韩冬; 李运来）.
7	方红卫（排名2）; 水沙两相紊流的理论与模型及其数值研究, 教育部自然科学一等奖, 2000（王光谦; 方红卫; 韩文亮; 邵学军）
8	方红卫（排名2）; 黄河干支流模型的理论与实践, 教育部科技进步二等奖, 2001（张红武; 方红卫; 张俊华; 王光谦; 赵业安; 邵学军; 赵连军; 张仁; 江春波; 杨明; 黄远东; 王辉; 钟德钰; 张红艺; 李丹勋; 黄裕陵; 王士强; 马吉明; 王兴奎; 袁欣）
9	方红卫（排名5）; 泥沙运动力学基本理论, 教育部自然科学一等奖, 2003（钱宁; 王兴奎; 王兆印; 王光谦; 方红卫; 吴保生; 邵学军; 傅旭东; 李丹勋; 钟德钰; 夏军强）
10	方红卫（个人奖）; 第十二届钱宁泥沙科学技术奖, 钱宁泥沙科学奖基金会, 2016.

2020年国家自然科学二等奖奖励证书

2017年国家科技进步二等奖奖励证书

2023年 ASCE Hans Albert Einstein Award奖励证书