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陈益峰

职称:二级教授,博士生导师(专业学位、学术学位)

邮箱:csyfchen@whu.edu.cn

研究领域及招生方向:

研究方向:多孔裂隙介质复杂渗流特性与控制技术、地质介质渗流-侵蚀-溶质运移与碳循环耦合机理、岩土多场耦合机理与跨尺度数值模拟方法、水利水电工程渗流-变形协同控制理论与技术

招生专业:水工结构工程

招生类型:专业学位硕士、学术学位硕士、专业学位博士、学术学位博士

教育背景:

1994.09-1998.06 武汉水利电力大学 水电学院 水利水电工程建筑专业,本科

1998.09-2001.06 武汉大学 水利水电学院 岩土工程专业,硕士

2001.09-2004.06 武汉大学 计算机学院 计算机软件与理论专业,博士

2003.08-2004.05 香港理工大学 计算机系,研究助理

工作经历:

2004.07-2006.10 ,讲师

2006.11-2009.10 ,副教授

2008.02-2008.11 瑞典皇家工学院,访问学者

2009.11-至今 ,教授

开设课程:

《工程地质》(本科生)

《海洋工程概论》(本科生,课程负责人)

《水利工程渗流分析与控制》(硕士生)

《水工岩石力学》(博士生,课程负责人)

《水利学科研究前沿》(博士生,课程负责人)

代表性科研项目:

国家杰出青年科学基金项目,岩土力学与岩土工程(2020.01~2024.12),主持

国家自然科学基金长江水科学研究联合基金重点项目,特高拱坝库坝区渗流-变形耦合演化机理与协同安全控制(2024.01~2027.12),主持

湖北省自然科学基金创新群体项目,高坝工程渗流-变形耦合机理与协同控制技术(2022.10~2025.09),主持

国家重点研发计划课题,库区与枢纽区地质环境演化规律及预测方法(2018.07~2021.12),主持

国家优秀青年科学基金项目,岩土体多场耦合效应与渗流控制(2013.01~2015.12),主持

学术兼职:

2017至今 International Journal of Rock Mechanics and Mining Sciences 副主编/编委

2017至今 Bulletin of Engineering Geology and the Environment 编委

2020至今 Journal of Rock Mechanics and Geotechnical Engineering 理事和编委

2014至今 《岩石力学与工程学报》编委

2023至今 《岩土力学》编委

2020至今 中国大坝工程学会 理事

2020至今 中国大坝工程学会库坝渗流与控制专委会 秘书长

2018至今 中国大坝工程学会大坝数值模拟专委会 副主任委员

2020至今 中国水利学会岩土力学专委会 副主任委员

2018至今 中国岩石力学与工程学会岩体数学与物理模拟专委会 副主任委员

2022至今 中国岩石力学与工程学会岩土体多场耦合专委会 副主任委员

2020至今 湖北省岩石力学与工程学会 副理事长

奖励与荣誉:

国家杰青获得者、享受国务院政府特殊津贴

湖北省科技进步一等奖(2022,排名第1)

河北省自然科学一等奖(2022,排名第2)

中国岩石力学与工程学会自然科学一等奖(2021,排名第2)

教育部科技进步一等奖(2016,排名第1)

湖北省科技进步一等奖(2012,排名第1)

国家科技进步二等奖(2012,排名第5)

教育部科技进步一等奖(2009,排名第4)

国家科技进步二等奖(2006,排名第7)

代表性学术成果:

专著:

[1] 陈益峰. 水利工程渗流分析理论与实践. 北京: 科学出版社, 2022.

[2] 周创兵, 陈益峰, 姜清辉, 卢文波. 复杂岩体多场广义耦合分析导论. 北京: 中国水利水电出版社, 2008.

论文:

[1] Chen Y.F.*, Wang S., Ren W., Yang Z., Hu R., Mao Y.P. (2023). Detection of leakage in the plunge pool area at Xiluodu arch dam with an integrated approach. Journal of Hydrology, 618, 129135.

[2] Zhou C.B.*, Chen Y.F.*, Hu R., Yang Z. (2023). Groundwater flow through fractured rocks and seepage control in geotechnical engineering: Theories and Practices. Journal of Rock Mechanics and Geotechnical Engineering, 15, 1-36.

[3] Chen Y.F.*, Ren W., Yang Z., Hu R., Mao Y.P., Zhou C.B. (2023). Evaluation of basin-scale hydrogeological changes induced by reservoir operation at the Xiluodu dam site. Journal of Hydrology, 620, 129548.

[4] Wang T., Hu R.*, Yang Z., Zhou C.X., Chen Y.F.*, Zhou C.B. (2022). Transitions of dissolution patterns in rough fractures. Water Resources Research, 58, e2021WR030456.

[5] Lan T., Hu R.*, Guo W., Wei G.J., Chen Y.F.*, Zhou C.B. (2022). Direct prediction of fluid-fluid displacement efficiency in ordered porous media using the pore structure. Water Resources Research, 58, e2021WR031875.

[6] Chen Y.F.*, Yuan J., Wang G., Xu J., Hu R., Yang Z. (2022). Evaluation of groundwater flow through a high rockfill dam foundation in karst area in response to reservoir impoundment. International Journal of Rock Mechanics and Mining Sciences, 160, 105268.

[7] Chen Y.F.*, Ye Y., Hu R.*, Yang Z., Zhou C.B. (2022). Modelling unsaturated flow in fractured rocks with scaling relationships between hydraulic parameters. Journal of Rock Mechanics and Geotechnical Engineering, 14(6), 1697-1709.

[8] Hu R., Wang T.*, Yang Z., Xiao Y., Chen Y.F.*, Zhou C.B. (2021). Dissolution hotspots in fractures. Geophysical Research Letters, 48, e2021GL094118.

[9] Li B.Y., Chen Y.F.*, Liu M.M., Hu R., Yang Z., Zhou C.B. (2021). A generalized non-Darcian model for packer tests considering groundwater level and borehole inclination. Engineering Geology, 286, 106091.

[10] Zhou B.Q., Yang Z.*, Hu R., Zhao X.J., Chen Y.F.* (2021). Assessing the impact of tunneling on karst groundwater balance by using lumped parameter models. Journal of Hydrology, 599, 126375.

[11] Chen Y.F.*, Zeng J., Shi H.T., Wang Y.F., Hu R., Yang Z., Zhou C.B.* (2021). Variation in hydraulic conductivity of fractured rocks at a dam foundation during operation. Journal of Rock Mechanics and Geotechnical Engineering, 13(2), 351-367.

[12] Lan T., Hu R.*, Yang Z., Wu D.S., Chen Y.F.* (2020). Transitions of fluid invasion patterns in porous media. Geophysical Research Letters, 47, e2020GL089682.

[13] Chen Y.F.*, Yu H., Ma H.Z., Li X., Hu R.*, Yang Z. (2020). Inverse modeling of saturated-unsaturated flow in site-scale fractured rocks using the continuum approach: A case study at Baihetan dam site, southwest China. Journal of Hydrology, 584, 124693.

[14] Chen Y.F.*, Liao Z., Zhou J.Q., Hu R., Yang Z., Zhao X.J., Wu X.L., Yang X.L. (2020). Non-Darcian flow effect on discharge into a tunnel in karst aquifers. International Journal of Rock Mechanics and Mining Sciences, 130, 104319.

[15] Zhou J.Q., Chen Y.F.*, Wang L., Cardenas M.B. (2019). Universal relationship between viscous and inertial permeability of geologic porous media. Geophysical Research Letters, 46, 1441-1448.

[16] Zhou J.Q., Chen Y.F.*, Tang H.*, Wang L., Cardenas M.B. (2019). Disentangling the simultaneous effects of inertial losses and fracture dilation on permeability of pressurized fractured rocks. Geophysical Research Letters, 46, 8862-8871.

[17] Hu R.*, Zhou C.X., Wu D.S., Yang Z., Chen Y.F.* (2019). Roughness control on multiphase flow in rock fractures. Geophysical Research Letters, 46(21), 12002-12011.

[18] Zhou J.Q., Wang L.*, Chen Y.F.*, Cardenas M.B. (2019). Mass transfer between recirculation and main flow zones: Is physically-based parameterization possible? Water Resources Research, 55, 345-362.

[19] Yang Z.*, Meheust Y., Neuweiler I., Hu R., Niemi A., Chen Y.F.* (2019). Modeling immiscible two-phase flow in rough fractures from capillary to viscous fingering. Water Resources Research, 55, 2033-2056.

[20] Yang Z.*, Xue S., Zheng X., Chen Y.F.* (2019). Partitioning dynamics of gravity-driven unsaturated flow through simple T-shaped fracture intersections. Water Resources Research, 55(8), 7130-7142.

[21] Hu R.*, Lan T., Wei G.J., Chen Y.F.* (2019). Phase diagram of quasi-static immiscible displacement in disordered porous media. Journal of Fluid Mechanics, 875, 448-475.

[22] Chen Y.F.*, Li B.Y.*, Liu M.M., Hu R., Yang Z. (2019). A Forchheimer’s law-based analytical model for constant-rate tests with linear flow pattern. Advances in Water Resources, 128, 1-12.

[23] Yang Z.*, Li D., Xue S., Hu R., Chen Y.F.* (2019). Effect of aperture field anisotropy on two-phase flow in rough fractures. Advances in Water Resources, 132, 103390.

[24] Hu R., Wan J., Yang Z., Chen Y.F.*, Tokunaga T. (2018). Wettability and flow rate impacts on immiscible displacement: A theoretical model. Geophysical Research Letters, 45, 3077-3086.

[25] Hu R., Wu D.S.*, Yang Z., Chen Y.F.* (2018). Energy conversion reveals regime transition of imbibition in a rough fracture. Geophysical Research Letters, 45, 8993-9002.

[26] Chen Y.F.*, Ling X.M., Liu M.M., Hu R.*, Yang Z. (2018). Statistical distribution of hydraulic conductivity of rocks in deep-incised valleys, southwest China. Journal of Hydrology, 566, 216-226.

[27] Chen Y.F., Wu D.S., Fang S., Hu R.* (2018). Experimental study on two-phase flow in rough fracture: phase diagram and localized flow channel. International Journal of Heat and Mass Transfer, 122, 1298-1307.

[28] Chen Y.F., Guo N., Wu D.S., Hu R.* (2018). Numerical investigation on immiscible displacement in 3D rough fracture: Comparison with experiments and the role of viscous and capillary forces. Advances in Water Resources, 118, 39-48.

[29] Zhou C.B., Zhao X.J., Chen Y.F.*, Liao Z., Liu M.M. (2018). Interpretation of high pressure pack tests for design of impervious barriers under high-head conditions. Engineering Geology, 234, 112-121.

[30] Chen Y.F., Fang S., Wu D.S., Hu R.* (2017). Visualizing and quantifying the crossover from capillary fingering to viscous fingering in a rough fracture. Water Resources Research, 53, 7756-7772.

[31] Liu M.M., Chen Y.F.*, Zhan H., Hu R., Zhou C.B. (2017). A generalized Forchheimer radial flow model for constant rate tests. Advances in Water Resources, 107, 317-325.

[32] Liu M.M., Chen Y.F.*, Wei K., Zhou C.B. (2017). Interpretation of gas transient pulse tests on low-porosity rocks. Geophysical Journal International, 210(3), 1845-1857.

[33] Hong J.M., Chen Y.F.*, Liu M.M., Zhou C.B. (2017). Inverse modelling of groundwater flow around a large-scale underground cavern system considering the excavation-induced hydraulic conductivity variation. Computers and Geotechnics, 81, 346-359.

[34] Hu R., Chen Y.F.*, Zhou C.B., Liu H.H. (2017). A numerical formulation with unified unilateral boundary condition for unsaturated flow problems in porous media. Acta Geotechnica, 12(2), 277-291.

[35] Liu M.M., Chen Y.F.*, Hong J.M., Zhou C.B. (2016). A generalized non-Darcian radial flow model for constant rate test. Water Resources Research, 52, 9325-9343.

[36] Wang M., Chen Y.F.*, Ma G.W., Zhou J.Q., Zhou C.B. (2016). Influence of surface roughness on non-linear flow behaviors in 3D self-affine rough fractures: Lattice Boltzmann simulations. Advances in Water Resources, 96, 373-388.

[37] Chen Y.F.*, Hong J.M., Zheng H.K., Li Y., Hu R., Zhou C.B. (2016). Evaluation of groundwater leakage into a drainage tunnel in Jinping-I arch dam foundation in southwestern China: A case study. Rock Mechanics and Rock Engineering, 49(3), 961-979.

[38] Liu W., Chen Y.F.*, Hu R., Zhou W., Zhou C.B. (2016). A two-step homogenization-based permeability model for deformable fractured rocks with consideration of coupled damage and friction effects. International Journal of Rock Mechanics and Mining Sciences, 89, 212-226.

[39] Hu R., Chen Y.F.*, Liu H.H., Zhou C.B. (2016). A coupled two-phase fluid flow and elastoplastic deformation model for unsaturated soils: Theory, implementation and application. International Journal for Numerical and Analytical Methods in Geomechanics, 40, 1023-1058.

[40] Chen Y.F.*, Hu S.H., Hu R., Zhou C.B. (2015). Estimating hydraulic conductivity of fractured rocks from high pressure packer tests with an Izbash’s law-based empirical model. Water Resources Research, 51, 2096-2118.

[41] Chen Y.F.*, Zhou J.Q., Hu S.H., Hu R., Zhou C.B. (2015). Evaluation of Forchheimer equation coefficients for non-Darcy flow in deformable rough-walled fractures. Journal of Hydrology, 529, 993-1006.

[42] Chen Y.F.*, Zhou S., Hu R., Zhou C.B. (2015). A homogenization-based model for estimating effective thermal conductivity of unsaturated compacted bentonites. International Journal of Heat and Mass Transfer, 83, 731-740.

[43] Zhou J.Q., Hu S.H., Fang S., Chen Y.F.*, Zhou C.B. (2015). Nonlinear flow behaviors at low Reynolds number through rough-walled fractures subjected to normal compressive loading. International Journal of Rock Mechanics and Mining Sciences, 80, 202-218.

[44] Zhou C.B., Liu W., Chen Y.F.*, Hu R., Wei K. (2015). Inverse modeling of leakage through a rockfill dam foundation during its construction stage using transient flow model, neural network and genetic algorithm. Engineering Geology, 187, 183-195.

[45] Chen Y.F.*, Liu M.M., Hu S.H., Zhou C.B. (2015). Non-Darcy’s law-based analytical models for data interpretation of high-pressure packer tests in fractured rocks. Engineering Geology, 199, 91-106.

[46] Chen Y.F.*, Zheng H.K., Wang M., Hong J.M., Zhou C.B. (2015). Excavation-induced relaxation effects and hydraulic conductivity variations in the surrounding rocks of a large-scale underground powerhouse cavern system. Tunnelling and Underground Space Technology, 49, 253-267.

[47] Hu R., Chen Y.F.*, Liu H.H., Zhou C.B. (2015). A coupled stress-strain and hydraulic hysteresis model for unsaturated soils: Thermodynamic analysis and model evaluation. Computers and Geotechnics, 63, 159-170.

[48] Chen Y.F.*, Hu S.H., Wei K., Hu R., Zhou C.B., Jing L. (2014). Experimental characterization and micromechanical modeling of damage-induced permeability variation in Beishan granite. International Journal of Rock Mechanics and Mining Sciences, 71, 64-76.

[49] Chen Y.F.*, Hu S.H., Zhou C.B., Jing L. (2014). Micromechanical modeling of anisotropic damage-induced permeability variation in crystalline rocks. Rock Mechanics and Rock Engineering, 47(5), 1775-1791.

[50] Hu R., Chen Y.F.*, Liu H.H., Zhou C.B. (2013). A water retention curve and unsaturated hydraulic conductivity model for deformable soils: consideration of the change in pore-size distribution. Géotechnique, 63(16), 1389-1405.

[51] Chen Y.F., Li D., Jiang Q., Zhou C.B.* (2012). Micromechanical analysis of anisotropic damage and its influence on effective thermal conductivity in brittle rocks. International Journal of Rock Mechanics and Mining Sciences, 50, 102-116.

[52] Chen Y.F., Hu R., Zhou C.B.*, Li D., Rong G. (2011). A new parabolic variational inequality formulation of Signorini’s condition for non-steady seepage problems with complex seepage control systems. International Journal for Numerical and Analytical Methods in Geomechanics, 35(9), 1034-1058.

[53] Chen Y.F., Hu R., Lu W., Li D., Zhou C.B.* (2011). Modeling coupled processes of non-steady seepage flow and non-linear deformation for a concrete-faced rockfill dam. Computers and Structures, 89, 1333-1351.

[54] Chen Y.F.*, Zhou C.B., Jing L. (2009). Modeling coupled THM processes of geological porous media with multiphase flow: theory and validation against laboratory and field scale experiments. Computers and Geotechnics, 36(8), 1308-1329.

[55] Chen Y.F.*, Zhou C.B., Zheng H. (2008). A numerical solution to seepage problems with complex drainage systems. Computers and Geotechnics, 35(3), 383-393.

[56] Chen Y.F., Zhou C.B.*, Sheng Y. (2007). Formulation of strain-dependent hydraulic conductivity for fractured rock mass. International Journal of Rock Mechanics and Mining Sciences, 44(7), 981-996.

[57] 胡冉, 陈益峰*, 万嘉敏, 周创兵. 超临界CO2-水两相流与CO2毛细捕获: 微观孔隙模型实验与数值模拟研究. 力学学报, 2017, 49(3): 638-648.

[58] 刘明明, 胡少华, 陈益峰*, 周创兵. 基于高压压水试验的裂隙岩体非线性渗流参数解析模型. 水利学报, 2016, 47(6): 752-762.

[59] 陈益峰*, 胡冉, 周创兵, 井兰如. 热-水-力耦合作用下结晶岩渗透特性演化模型. 岩石力学与工程学报, 2013, 32(11): 2185-2195.

[60] 陈益峰*, 周创兵, 童富果, 井兰如. 多相流传输THM全耦合数值模型与程序验证. 岩石力学与工程学报, 2009, 28(4): 649-665.

地址:武汉市武昌区东湖南路8号电话:027-68772215学院邮箱:sdxy@whu.edu.cn

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