王环玲,国家级重大人才计划入选者,河海大学二级教授,博士生导师。
现任卓越工程师学院副院长,江苏省岩土力学与环境国际合作实验室副主任,科技部教育部重大水电工程多场耦合力学学科创新引智基地学术带头人。兼任中国岩石力学与工程学会岩体数学物理模拟专委会副主任,滑坡与边坡分会常务理事,岩石工程设计方法分会常务理事,中国大坝协会数值模拟专委会委员。
主要研究方向为水工岩石力学与防灾减灾。获省部级科技进步特等奖2项,一等奖7项,主持承担了国家重点研发计划、国家自然科学基金以及重大工程科技项目50余项,部分成果在澜沧江、金沙江、雅砻江流域重大水电工程建设和国家水网建设以及防灾减灾实践中得到重要应用。
教育及工作经历:
2003.3-2006.3,河海大学 岩土工程 博士
2000.9-2003.6,中国地质大学(武汉) 岩土工程 硕士
1996.9-2000.6,中国地质大学(武汉) 水文地质与工程地质本科
2012.8-2013.8 法国国家科研中心里尔力学研究所(LML, CNRS)和法国里尔科技大学(USTL)访问学者2014.7-2015.7 加拿大多伦多大学(University of Toronto)工学院高级访问学者
2014年 破格聘为博士生导师;2015年 破格聘为教授
研究方向:
水工岩石力学与防灾减灾
岩石渗流力学基本理论与试验
岩石多尺度多物理场耦合理论与计算方法
岩石高边坡工程
水工隧洞和地下洞室工程
压气储能地下工程
地质灾害防治与环境保护
滑坡涌浪
(2)水利工程081505
水动力侵蚀
岩土-结构-水流相互作用
工程结构物及其与周围介质相互作用
学术兼职:
科技部教育部重大水电工程多场耦合力学学科创新引智基地学术带头人
岩土体多场耦合专委会委员
主讲课程
研究生课程
现代岩土力学(博士生课程)
高等岩石力学(硕士生课程)
Advanced rock and soil mechanics(留学生课程)
本科生课程
岩石力学
力学导论
工程师文化
研究课题
Ø 国家重点研发计划(2018YFC1508501):堰塞坝病险情辨别与探测技术,2018.12-2021.12
Ø 国家重点研发计划(2017YFC1501101):水动力型特大滑坡破坏机制与失稳判识模型,2018.1-2021.12
Ø 云南省重大科技专项(DZYS-ZZ-GCBF-SJ-004):复杂赋存条件下的红层软岩隧洞工程施工期关键技术研究,2022.1-2025.12
Ø 云南省重大科技专项(DZYS-ZZ-GCBF-SJ-005):深埋长隧洞高外水压力作用机理及渗控关键技术研究,2022.1-2025.12
Ø 国家自然科学基金(11772116):高渗压作用下岩石渗流流变力学特性的试验与模型研究,2018.1-2021.12
Ø 国家自然科学基金(11572110): 各向异性柱状节理岩体渗流应力耦合试验与力学模型研究,2016.1-2019.12
Ø 国家自然科学基金(11272113):低渗透岩石渗透特性测试及渗流应力耦合实验研究,2013.1-2017.12
Ø 国家自然科学基金(51009052):层状裂隙岩体流-固耦合作用下的变形机理与工程应用研究,2011.1-2013.12
Ø 江苏省自然科学基金(BK2012809):低渗透岩石流-固耦合机理实验及数值模型研究,2012.1-2014.12
Ø 国家自然科学基金(51479049): 岩石渗流应力耦合流变力学实验及本构模型研究,2012.1-2015.12
Ø 国家科技支撑计划(2012BAK03B04):石油储备地下水封洞库工程安全技术,2012.1-2014.12
Ø 国家科技支撑计划(2013BAB06B01-1):澜沧江流域库群系统安全的主要风险源及其作用机制,2013.1-2015.12
Ø 国家重点基础研究发展计划(973):大型水利水电工程高陡边坡全生命周期性能演化与安全控制第四课题,2011.01-2016.12
Ø 重大工程科技项目(822007616):金沙江白鹤滩水电站库区王家山滑坡稳定性和涌浪三维数值分析研究,2021.9-2022.6
Ø 重大工程科技项目:深中通道项目深水深槽凿岩施工技术开发研究,2020.1-2023.12
Ø 重大工程科技项目:滇中引水工程项目滇中红层软岩多尺度水岩耦合力学规律及力学特性劣化机理,2021.1-2024.12
Ø 重大工程科技项目:滇中引水工程项目滇中红层软岩隧洞围岩变形破坏特征与灾变演化机制,2021.1-2024.12
Ø 重大工程科技项目:滇中引水项目红层软岩流变力学特性实验研究及红层软岩隧洞馈控模拟分析,2019.6-2022.12
Ø 华能集团重大科技项目:RM水电站水库蓄水RS堆积体失稳机理及涌浪传播试验研究(817058916),2020.7-2022.12
Ø 重大工程科技项目:特高坝工程坝基渗流应力流变力学与工程安全,2018-2020
Ø 重大工程科技项目:白鹤滩水电站高坝坝基渗流应力耦合作用下的长期安全性研究,2014.3-2016.12
Ø 重大工程科技项目:金沙江白鹤滩水电站各向异性岩石力学特性及模型研究,2009.6-2013.6
Ø 重大工程科技项目:东岭信滑坡堆积体稳定性分析与防治预警研究,2013.1-2014.12
Ø 重大工程科技项目:白鹤滩水电站柱状节理玄武岩室内三轴压缩岩石力学试验,2015.6-2017.8
Ø 重大工程科技项目:白鹤滩水电站玄武岩室内岩石力学特性,2015.6-2016.1
Ø 重大工程科技项目:澜沧江糯扎渡水电站枢纽区右岸下游护岸泄洪雾雨区边坡研究,2006.5-2007.12
Ø 揭榜挂帅:YX重大水电开发滑坡灾害链及防灾减灾研究,2021.1-2023.12
Ø 重大工程科技项目:雅砻江两河口水电站蓄水期磨古倾倒体涌浪分析及监测系统布置研究,2021.1-2023.12
Ø 重大工程科技项目:面向YX水电建设的高位高危滑坡灾害链分析及数值模拟研究, 2022.3-2023.12
Ø 华能集团科技项目:西藏LCBDa水电站枢纽区工程边坡数值计算及模型研究,2023.3-2025.12
Ø 重大工程科技项目:水电站高强度泄洪激振对近坝区边坡致灾机理安全评价及防控研究,2024.12-2026.12
Ø 重大工程科技项目:印尼巴塘水电站引水隧洞工程长期安全性评价,2024.6-2025.12
论著:
1.王环玲,刘士奇,屈晓,马行生. 岩石动力学特性及岩土工程应用,河海大学出版社,2025
2.王环玲,徐卫亚. 致密岩石渗透测试技术与渗流力学特性,科学出版社,2015
3.徐建荣,孟庆详,何明杰,王环玲.多尺度柱状节理岩体数值分析,河海大学出版社,2023
4.徐卫亚,张超,王如宾,王环玲,赵海斌. 大型地下水封洞库围岩流变力学与长期安全性分析,科学出版社,2016
近五年部分学术论文:
² Huanling Wang*, Yizhe Wu, Xiao Qu,Wenxiu Wang,Yuxuan Liu, Wei-Chau Xie. Experimental and numerical investigations on failure process and permeability evolution of weathered granite under hydro-mechanical coupling. International Journal of Rock Mechanics and Mining Sciences, 2025,(191):106117. https://doi.org/10.1016/ j.ijrmms.2025.106117
² Wang H L*, Ma H S, Zhan Z G, Zhou X J, Xu W Y, Xie W C. Investigation of the hydrodynamic pressure induced by landslide-generated impulse waves on a dam using physical similarity model experiments and numerical simulations. Physics of Fluids, 2025, 37(3): 036616.
² Wang H L*, Ma H S, Wu YZ, Zhan Z G, Xu WY, Zhang H Z , Sun W. Probabilistic analysis of impulse waves generated by large deposits in mountain reservoirs. Physics of Fluids, 2025, 37(4): 046615. https://doi.org/10.1063/5.0266636
² Ma H S, Wang H L*, Xu W Y, Shi H J, Hou J. Numerical estimation of river blockage and the whole lifecycle of landslide-generated impulse waves in mountain reservoirs using a hybrid DEM-SPH and SWEs method. Engineering Geology, 2025, 351: 108022.
² Chen Y, Wang H L*, Liu S, Bao W, Wang F, Li B Q. A method for simulating rock with inherent microcracks and calibrate its microscopic parameters. Rock Mechanics and Rock Engineering, 2025, https://doi.org/10.1007/s00603-025-04422-x.
² Mingtao Hu, Weiya Xu, Huanling Wang, Wei Huang & Tao Zhang. Experimental analysis and modeling study of the coupled elastoplastic damage model for sandy mudstone. Bull Eng Geol Environ.2025, 84, 243. https://doi.org/10.1007/s10064-025-04258-3
² Wang Z, Wang H L, Xu W, Xie W C. Uncertainty quantification of three factors by geostatistical simulations applied to a stability analysis case study using a discrete element method. Environmental Earth Sciences, 2025, 84(2): 50.
² 杨玲, 王环玲*, 徐卫亚, 闫龙, 田雷. 滑坡圆弧滑面等效压脚方量及压脚断面设计研究. 工程力学, 2025, 42(2): 108-117.
² Liu S Q, Wang H L, Lu J, Chi M B. Deformation mechanism and support technology of deep asymmetrical soft rock roadway. Physics of Fluids, 2025, 37(3): 037182.
² Lyu C, Xu W, Wang H L, Wu Y, Wang H. A digital twin system for rock triaxial mechanical tests incorporating probabilistic parameter updates and model prediction through data assimilation technique. Rock Mechanics and Rock Engineering, 2025, https://doi.org/10.1007/s00603-025-04406-x
² Liu S, Cheng Z, Wang H L, Bao J. Experimental and numerical study on grouting reinforcement of a broken rock mass. International Journal of Geomechanics, 2025, 25(2): 04024357.
² Wang H L*, Wu Y Z , Li M, Liu Y X, Xu W Y, Yan L, Xie W C. A novel FDEM-GSA method with applications in deformation and damage analysis of surrounding rock in deep-buried tunnels. Tunnelling and Underground Space Technology, 2024, 154: 106106.
² Ma H, Wang H L*, Shi H, Xu W, Hou J, Wu W, Xie W C. Probabilistic landslide-generated impulse waves estimation in mountain reservoirs, a case study. Bulletin of Engineering Geology and the Environment, 2024, 83(12): 494.
² Ma H, Wang H L*, Xu W, Zhan Z, Wu S, Xie W C. Numerical modeling of landslide-generated impulse waves in mountain reservoirs using a coupled DEM-SPH method. Landslides, 2024, 21(8): 2007-2019.
² Wu Y Z, Wang H L*, Zhang Y J, Lyu C H, Liu Y X, Wang W. Deterioration mechanism and statistical damage constitutive model of red-bed soft rock with different moisture content. Pure and Applied Geophysics, 2024: 1-20.
² Abubakar A F, Wang H L*, Wu Y. Investigation of the Hydro-mechanical Response and Entropy-based Probabilistic Damage Constitutive Model of Basalt under Compression. KSCE Journal of Civil Engineering, 2024, 28(6): 2486-2504.
² Shi H, Xu W, Wang H L*, Cai W, Liu Y, Xie W. Spatio-temporal deformation characteristics and triggering factors of Wangjiashan landslide. European Journal of Environmental and Civil Engineering, 2024. https://doi.org/10.1080/ 19648189.2024.2407869
² Kouame A R, Wang H L*. Random analysis of deposit landslide deformation under uniformly increasing rainfall using machine learning. European Journal of Environmental and Civil Engineering, 2024, 28(12): 2787-2806.
² Chen S Z, Xu W Y, Feng Y, Yan L, Wang H L, Xie W C. Experimental investigation on potential high-position landslide-generated impulse waves: A case study of the Meilishi landslide in the Gushui Reservoir, China. Ocean Engineering, 2024, 314: 119723.
² Xu W Y, Lyu C H, Zhang J, Wang H L, Wang R B, Yan L, Xie W C. Calibrating high-dimensional rock creep constitutive models for geological disaster prevention: An application of data assimilation methods. International Journal of Rock Mechanics and Mining Sciences, 2024, 183: 105911.
² Liu S Q, Cheng Z C, Wang H L, Zhou Y, Li W. Discrete element analysis of jointed rock mass impact on rigid baffle structure. Computational Particle Mechanics, 2024, https://link. springer.com/10.1007/s40571-024-00797-w.
² Wang Z, Wang H, Xu W, Zhu D, Xie W C. A new uncertainty analysis method based on geostatistical simulation and a case study. Case Studies in Construction Materials, 2024, 20: e02813.
² Chen S, Xu W, Zhang G, Wang R, Yan L, Zhang H, Wang H. Numerical simulation of potential impulse waves generated by the Mogu rock landslide at varying water levels in the Lianghekou Reservoir, Landslides, 2024, https://link.springer.com/ 10.1007/ s10346-024-02286-w.
² Shi A, Lyu C, Fan X, Hu M, Wang H, Xu W. Prediction of Dam Foundation Displacement due to Excavation Unloading Based on Digital Twin: Case Study of Baihetan Hydropower Project. Journal of Engineering Mechanics, 2024, 150(6): 05024001.
² Hu M, Zhang Y, Xu W, Wang H, Wang R, Yang X, Ma J, Huang W. Large deformations and numerical analysis of a typical soft rock tunnel in the chuxiong section of the yunnan central water diversion project. International Journal of Geomechanics, 2024, 24(4): 05024002.
² Zhang Y, Hu M, Xu W, Wang H, Fan L, Wang R, Yan L, Huang W, Zhang T. Experimental and model investigation on hydro-mechanical behaviour of sandy mudstone. European Journal of Environmental and Civil Engineering, 2024: 1-18.
² Chen Y, Wang H L*, Zhang F, Meng Q, Liu Z. Study on the calculation model of mutually embedded displacement between miscellaneous fill and soft soil[J]. Bulletin of Engineering Geology and the Environment, 2024, 83(9): 348.
² Wang H L, Zhao X F, Chen H J, Yi K, Xie WC, Xu W Y. Evaluation of toppling rock slopes using a composite cloud model with DEMATEL–CRITIC method. Water Science and Engineering, 2023, 16(3): 280-288.
² Wang H L*, Zhao K, Qu X, Xu J, Cai M. Hydro-mechanical properties of rock-like specimens with pre-existing intermittent joints. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2542-2551.
² Qu X, Wang H L*, Xie W C, Ma H S. Experimental investigation on dynamic compressive mechanical properties of weathered granite and statistical damage constitutive model. Bulletin of Engineering Geology and the Environment, 2023, 82(8): 313.
² Ma H S, Wang H L*, Wang R B, Meng Q X, Yang L L. Automatic back analysis of mechanical parameters using block discrete element method and PSO algorithm. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2576-2586.
² Ma H, Wang H L*, Xu W, Shi A, Xie W C. Prediction of impulse waves generated by the wangjiashan landslide using a hybrid SPH-SWEs model[J]. Natural Hazards, 2024, 120(4): 3799-3826.
² Huang W, Wang H L*, Zhang T, He M, Yan L. Hydraulic pressure effect on mechanical properties and permeabilities of layered rock mass: an experimental study. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2422-2433.
² Zhang T, Xu W Y, Wang H L*, Yan L, Xu J. Anisotropic Strength, Deformability, and Failure Behavior of Artificial Columnar Jointed Rock Masses under Triaxial Compression. Journal of Materials in Civil Engineering, 2023, 35(3): 04022446.
² Liu S Q, Wang H L*, Qu X, Cheng Z. Experimental investigation and energy evolution of brittle limestone subjected to multistage cyclic loading. Geotechnical Testing Journal, 2023, 46(3): 510-534.
² Yang L, Wang H L*, Chen H, Ning Y. An improved interval limit equilibrium method based on particle swarm optimisation: taking Dahua landslide as a case. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2475-2487.
² Liu S Q, Wang H L*, Qu X, Pan B, Xie W C. Experimental investigation on the effect of strain rate on brittle limestone in post-earthquake landslide area. Pure and Applied Geophysics, 2023: 1-14.
² Wang Z, Wang H L*, Yan L, Chi F. Random-field generation method based on discrete cosine transform and application to landslide analysis. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2435-2446.
² Hu M, Xu W, Wang H, Ning Y, Wang R, Lyu C, Zhang T. Deformation characteristics of muddy sandstones during cyclic loading and unloading with different stress lower limits under pore pressure. International Journal of Fatigue, 2023, 172: 107606.
² Meng Q, Wang H*, He M, Gu J, Qi J, Yang L. Displacement prediction of water-induced landslides using a recurrent deep learning model. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2460-2474.
² Zhang T, Xu W, Wang H L, Wang R, Xu J, Hu M. Experimental investigation on hydromechanical behavior of basalt and numerical modeling by return mapping algorithms. Bulletin of Engineering Geology and the Environment, 2023, 82(4): 132.
² Chen S, Shi A, Xu W, Yan L, Wang H L, Tian L, Xie W C. Numerical investigation of landslide-induced waves: a case study of wangjiashan landslide in baihetan reservoir, china. Bulletin of Engineering Geology and the Environment, 2023, 82(4): 110.
² Jiang Z, Wang H*, Xu J, Chen H, Xie W. Variation of permeability of natural filled jointed rock under repeated loading and unloading conditions. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2447-2459.
² 刘士奇, 王环玲, 程志超, 李宝建. 地震作用下岩质边坡失稳动力响应离散元分析. 岩土工程学报, 2023, 45: 253-257.
² Wang R, Xu B, Wan Y, Wang H, Wang W, Meng Q. Characteristics of unloading damage and permeability evolution of sandstone under hydro-mechanical coupling. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2566-2575.
² Li B, Xu J, Xu W, Wang H, Yan L, Meng Q, Xie W. Mechanism of valley narrowing deformation during reservoir filling of a high arch dam. European Journal of Environmental and Civil Engineering, 2023, 27(7): 2411-2421.
² Wang H L*, Liu S Q, Qu X, Zhan R B, Liao Z P. Field investigations on rock fragmentation under deep water through fractal theory. Measurement, 2022, 199: 111521.
² Wang H L*, Jiang Z H, Xu W Y, Wang R B, Xie W C. Physical model test on deformation and failure mechanism of deposit landslide under gradient rainfall. Bulletin of Engineering Geology and the Environment, 2022, 81(1): 66.
² Zhang T, Xu W Y, Wang H L*, Wang R B, Yan L, Shi A. Anisotropic mechanical characteristics and energy evolution of artificial columnar jointed rock masses subjected to multi-level cyclic loading. International Journal of Fatigue, 2022, 165: 107215.
² Zhang T, Xu W Y, Wang H L*, Wang R B, Shi A. Experimental Investigations on Short-Term and Creep Anisotropic Mechanical Behavior of Artificial Columnar Jointed Rock Masses. Rock Mechanics and Rock Engineering, 2022, 55(9): 5393-5413.
² Wang S S, Wang H L*, Xu W Y, Cai M. A coupled elasto-plastic damage model for fine-grained sandstone under triaxial compression and lateral extension loading conditions. European Journal of Environmental and Civil Engineering, 2022, 26(3): 838-854.
² 张宗亮, 何宁, 周彦章, 王环玲, 赵春, 张嘎, 肖恩尚. 堰塞坝险情处置与开发利用保障技术与装备研发[J]. 岩土工程学报, 2022, 44(7): 1175-1187.
² 张涛, 徐卫亚, 孟庆祥, 王环玲, 闫龙, 钱坤. 基于3D打印技术的柱状节理岩体试样力学特性试验研究[J]. 岩土力学, 2022, 43(S2): 245-254+264.
² 王环玲, 马行生, 傅星凯, 詹锐彪, 廖曾平. 深水基槽开挖中水下重锤破岩规律研究[J]. 河海大学学报(自然科学版), 2022, 50(6): 85-91.
² Zhang T, Xu W Y, Wang H L*, Wang R B, Yan L, Hu M T. Anisotropic mechanical behaviour of columnar jointed rock masses subjected to cyclic loading: An experimental investigation. International Journal of Rock Mechanics and Mining Sciences, 2021, 148: 104954.
² Jiang Z, Wang H L*, Xie W. Deformation mechanism of deposit landslide induced by fluctuations of reservoir water level based on physical model tests. Environmental Earth Sciences, 2021, 80(11): 410.
² Wang Z, Wang H L*, Xu W, Xie W C. Slope stability analysis considering the rotated anisotropy in soil properties. Engineering Computations, 2021, 38(7): 3021-3035.
² Cheng Z, Wang H L*, Xu W, Yan L. Numerical investigation of the flow characteristics and permeability of 2D irregular columnar jointed rock masses. Engineering Computations, 2021, 38(10): 4091-4110.
² Wang Z, Wang H L*, Xu W. Effect of rotated anisotropy of soil shear strength on three-dimensional slope stability: a probabilistic analysis. Bulletin of Engineering Geology and the Environment, 2021, 80(8): 6527-6538.
² Yan L, Xu W, Wang R, Wang H L, Xie W C. Mechanical and Permeability Characteristics of Basalt During Unloading Confining Pressure Creep Tests Under Coupled Hydro-Mechanical Conditions. Rock Mechanics and Rock Engineering, 2021, 54(12): 6091-6103.
² Liu S, Wang H, Meng Q, Yan L. Simulating Crack Development and Failure Characteristic of Toppling Rock Slope under Seismic Loading on Lancang River in China. Lithosphere, 2021, 5424127.
² Jia C, Xu W, Wang H, Zhang Q. Experimental investigation of the mechanical and permeability characteristics of volcanic breccia. Bulletin of Engineering Geology and the Environment, 2021, 80(1): 599-610.
² He M, Li H, Xu J, Wang H, Xu W, Chen S. Estimation of unloading relaxation depth of baihetan arch dam foundation using long-short term memory network. Water Science and Engineering, 2021, 14(2): 149-158.
² 王环玲, 屈晓, 徐卫亚, 王如宾, 刘士奇. 堰塞坝堆积演化过程及开发利用研究进展. 中国地质灾害与防治学报, 2021, 32(1): 84-94.
² Wang H L*, Liu S Q, Xu W Y, Yan L, Qu X, Xie W C. Numerical investigation on the sliding process and deposit feature of an earthquake-induced landslide: a case study. Landslides, 2020, 17(11): 2671-2682.
² Xiang Z P, Wang H L*, Xu W Y, Xie W C. Experimental study on hydro-mechanical behaviour of anisotropic columnar jointed rock-like specimens. Rock Mechanics and Rock Engineering, 2020, 53(12): 5781-5794.
² Meng Q X, Wang H L*, Cai M, Xu W Y, Zhuang X, Rabczuk T. Three-dimensional mesoscale computational modeling of soil-rock mixtures with concave particles. Engineering Geology, 2020, 277: 105802.
² Liu S, Wang H L*, Xu W, Cheng Z, Xiang Z, Xie W C. Numerical Investigation of the Influence of Rock Characteristics on the Soil-Rock Mixture (SRM) Slopes Stability. KSCE Journal of Civil Engineering, 2020, 24(11): 3247-3256.
² Liu S, Wang H L*, Xu W, Qu X, Xie W C. Numerical brazilian split test of pre-cracked granite with randomly distributed micro-components. Engineering Computations, 2020, 37(8): 2641-2657.
² 王环玲*, 沙聪, 徐卫亚, 孟庆祥. 基于颗粒离散元的土石混合体强度影响研究. 土木工程学报, 2020, 53(9): 106-114.
l 王环玲,马行生,湛正刚,吴述彧,徐卫亚,程瑞林. 具备堆积形态的滑坡体自由下滑装置及方法,2025,ZL2022109791436
l 王环玲,马行生,刘宇轩,徐卫亚,粟焕. 一种基于颗粒离散元与SPH的滑坡涌浪模拟方法, 2024, ZL202210382407.X
l 王环玲,马行生,徐卫亚,刘宇轩,屈晓. 一种基于DEM-CFD-SPH建模的滑坡涌浪模拟方法,2024,ZL202210359006.2
l 王环玲,马行生,粟焕,徐卫亚,刘宇轩. 一种基于SPH远近场耦合计算的滑坡涌浪模拟方法, 2024, ZL202210402222.0
l 王环玲,马行生,周行健,徐卫亚. 无外力下调节滑体高度的滑坡涌浪特征模拟装置及方法, 2024, ZL202210960028.4
l 王环玲,马行生,湛正刚,程瑞林,徐卫亚,吴述彧. 一种变水位滑坡涌浪物理模型的消浪装置及消浪方法, 2024, ZL202211323782.3
l 王环玲,马行生,屈晓. 控制滑体堆积高度下局部淹没式滑坡涌浪模拟装置及方法, 2024, ZL202210960027.X
l 王环玲,程瑞林,胡永福,迟福东,徐卫亚,李鹏飞,杜帅群,关汉锋,陈鸿杰,马海忠,谭彬,姜自华. 水位下降产生动水压力等效为滑体下滑速度的装置及方法, 2023, ZL202211077694.X
l 王环玲,杨玲,邹丽芳,徐卫亚. 基于粒子群优化和蒙特卡罗模拟的滑坡有限元区间分析法,2023. ZL202010608487.7
l 王环玲,杨玲,徐卫亚,孟庆祥,王如宾.一种优化滑坡条间推力的去条块Janbu条分法,2023,ZL202010639292.9
l 王环玲,周行健,屈晓,徐卫亚,王如宾. 河道型水库三维滑坡涌浪试验正态物理模型,2023,ZL202210105273.7
l 王环玲,刘士奇,徐卫亚,杨玲,姜自华,屈晓,徐伟.一种再现堰塞坝堆积特性的数值模拟方法, 2023, ZL202010586131.8
l 王环玲; 马行生; 邹丽芳; 王如宾. 基于非达西定律的岩石渐进破坏过程渗流特征模拟方法, 2023, ZL202010546917.7
l 王环玲; 马行生; 徐卫亚; 王如宾. 一种无已知底滑面的滑坡滑动过程模拟方法, 2020, ZL201910168033.X
l 王环玲,姜自华,徐卫亚,马行生.确定库区滑坡稳定状态下的库水位下降速率阈值的方法, 2022, ZL202010533934.7
l 王环玲,屈晓,刘士奇,马行生.一种凿岩棒凿击速度可控的水下岩石清理平台及清理方法, 2022, ZL202010608491.3
l 王环玲,姜自华,徐卫亚,刘士奇,杨玲. 一种滑坡涌浪模型试验装置及滑坡涌浪测试方法, 2022, ZL202010534375.1
l 王环玲,屈晓,刘士奇,马行生.一种环保型海底礁石清理施工工艺, 2022, ZL202010608442.X
l 王环玲,马行生,孟庆祥,徐卫亚,刘士奇,王如宾. 一种基于网格化的颗粒模型损伤表征方法, 2022, ZL202010205959.4
l 王环玲,马行生,屈晓,徐卫亚,邹丽芳.一种基于矿物晶粒定向发育的各向异性岩石建模方法, 2022, ZL202010205954.1
l 王环玲,马行生,杨玲,徐卫亚,孟庆祥,闫龙.一种考虑晶粒咬合的各向异性岩石建模方法,2022, ZL202010205967.9
l 王环玲,姜自华,徐卫亚,周行健,王如宾,苏佳盼,马行生.一种测试滑坡稳定性的物理模型试验装置及测试方法,2021, ZL201910681406.3
l 王环玲,杨玲,徐卫亚,向志鹏.一种基于粒子群优化算法的滑坡区间稳定性分析方法, 2021, ZL201910840635.5
l 王环玲,刘士奇,徐卫亚,向志鹏. 一种岩石流变加载条件下多气体渗流测试装置及测试方法, 2021, ZL20190101085405.9
l 王环玲,马行生,徐卫亚,王如宾,孟庆祥. 一种在块体离散元中确定柱状节理岩石节理刚度的方法, 2021, ZL201910661442.3
l 王环玲,巢志明,徐卫亚.一种低渗透多孔介质材料的流固耦合模型构建方法, 2020, ZL201810874858.9
l 王环玲,姜自华,徐卫亚,夏季,苏佳盼,沙聪. 一种确定高海拔寒区岩石冻融损伤程度的方法, 2020, ZL2018103239915
l 王环玲,刘士奇,徐卫亚,贾朝军,向志鹏,姜自华,王震,程志超. 一种确定岩石相对渗透率的方法, 2020, ZL201810338314.0
l 王环玲,赵恺,徐卫亚,冉少鹏,向志鹏,夏季.一种确定岩石有效应力系数的方法, 2020, ZL201710403114.4
l 王环玲,屈晓,徐卫亚,刘士奇. 模拟边坡地震动力失稳的振动台试验模型箱及试验方法, 2020, ZL20191067536.2
l 王环玲,向志鹏,徐卫亚,邹丽芳,李跃,杨兰兰,刘士奇,杨玲. 岩石渗流应力耦合过程中渗透率与孔隙率关系的确定方法, 2020, ZL201910602768.9
获批软件著作权:
Ø 基于GPU并行计算的改进离散单元法求解器V1.0,2025
Ø 基于GPU并行计算的改进光滑粒子流体动力学方法求解器V1.0,2025
Ø 块体离散元位移反分析软件V1.0,2020SR097556,2020
Ø 抗滑桩最优参数筛选程序V1.0,2020SR1261507,2020
Ø 土石混合体颗粒模型转化程序V1.0,2019SR1158757,2019
Ø 基于粒子群优化算法的区间极限平衡边坡稳定性分析软件V1.0, 2019SR0618603,2019
Ø 松动碎裂岩体连续-非连续耦合多尺度数值仿真软件,2019
Ø 岩石真三轴力学试验数据处理及强度准则软件,2019
Ø 考虑岩石局部化效应本构模型开发软件V1.0, 2019
Ø 土石混合体颗粒模型转化程序V1.0 2019SR1158757,2019
Ø 基于优化算法和区间理论的滑坡有限元极限平衡分析软件[简称POS_FLEM]1.0, 2020SR0970591,2019
Ø 弹塑性损伤本构开发软件V1.0,2017SR723256,2017
Ø 基于水平集法的极限平衡有限元边坡稳定性分析软件,2015SR215479,2015
Ø 各向异性岩体三维渗流应力耦合分析软件V1.0,2014SR013622,2014
Ø 工程岩体三维后处理可视化软件V1.0,2014SR013625,2014
Ø 三维非线性有限元分析软件V1.0,2014SR013627,2014
Ø 各向异性岩体饱和非饱和三维渗流分析软件V1.0,2014SR013631,2014
Ø 工程岩体三维程序建模软件V1.0,2014SR013623,2014
荣誉与奖励
Ø 2023年,教育部长江学者特聘教授
Ø 2022年,《岩石力学与防灾减灾研究生导师团队》,获评为江苏省“十佳研究生导师团队”
Ø 2023年,《红石岩堰塞坝水利枢纽工程关键技术》,云南省科技进步奖,特等奖
Ø 2023年,《重大水利水电工程长大隧洞复杂环境大变形防控关键技术及应用》,云南省科技进步奖,一等奖
Ø 2022年,《滑坡致灾力学机理及灾害链演化研究与工程应用》,水力发电科学技术奖,一等奖
Ø 2022年,《依托高水平国际合作与交流,岩石力学与防灾减灾高质量人才培养模式与实践》,河海大学教学成果一等奖
Ø 2020年,《依托国家重大工程建设,高质量拔尖创新工程人才培养模式与实践》,河海大学教学成果一等奖
Ø 2019年,《柱状节理玄武岩坝基松弛控制关键技术及在特高拱坝工程中的应用》,中国大坝工程学会科学技术奖,一等奖
Ø 2018年,《工程岩石渗流力学及应用》,江苏省科技进步奖,二等奖
Ø 2018年,《各向异性岩石力学特性力学模型及工程应用》,水力发电科学技术奖,一等奖
Ø 2016年,《岩石渗流-应力-流变耦合理论研究与工程应用》,水力发电科学技术奖,一等奖
Ø 2013年,《水利水电工程大型堆积体特性及失稳防控研究》,水力发电科学技术奖,特等奖
Ø 2013年,《多场耦合多尺度岩石力学研究》,江苏省科学技术奖,二等奖
Ø 2010年,《大型水电工程岩石高边坡工程安全理论研究与工程应用》,大禹水利科学技术进步奖,一等奖
Ø 2019年,江苏省高校“青蓝工程”中青年学术带头人
联系方式
河海大学西康路校区科学馆1009
E-mail:wanghuanling@hhu.edu.cn
电话:025-83787379