杨多兴
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姓名: |
杨多兴 |
性别: |
男 |
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职称: |
研究员 |
学位: |
博士 |
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电话: |
62842622 |
传真: |
62927306 |
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Email: |
dxyang@ninhm.ac.cn |
邮编: |
100085 |
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地址: |
北京市海淀区清河安宁庄路1号 |
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杨多兴,甘肃静宁人。 教育经历: 2006-2009:中国科学院地质与地球物理研究所,地质工程,工学博士 (导师:李国敏研究员,张德良研究员) 1999-2002:中国地震局兰州地震研究所,固体地球物理,理学硕士 (导师:苏乃秦研究员,王道研究员) 1995-1999:安徽理工大学(原淮南矿业学院),水文地质与工程地质,工学学士 工作经历: 2020-至今:应急管理部国家自然灾害防治研究院, 研究员 2014-2019:中国地震局地壳应力研究所, 研究员 (中国地震局高级专业技术职务研究员资格) 2007-2013:中国地震局地壳应力研究所, 助理研究员、副研究员 2010-2011:日本地球环境产业技术研究所,国家公派访问学者、客员研究员 2002-2007:国家环境保护总局环境工程评估中心,从事高性能并行计算 2009-2023:曾访问英国地质调查局、亚琛工业大学、日本产业技术综合研究所、京都大学 2017.1-2017.3:Hochschule Düsseldorf (德国杜塞尔多夫应用技术学院)与Ali Cemal Benim教授合作开展湍流大涡模拟(LES) |
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学术任职: Progress in Computational Fluid Dynamics专辑编辑(Guest editor) 中国科学院武汉岩土力学研究所兼职研究生导师 中国科学院大学研究生导师 |
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学科类别: 流体力学、地球物理学 |
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研究方向: 多孔介质传质与传热、计算流体力学、碳地质储存、地质工程光纤传感探测、小行星防御数值计算 |
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承担科研项目情况: 国家自然科学基金面上项目(41874113)地震破裂过程中断裂带孔隙压与应变响应规律研究 德意志联合基金会(DFG)国际合作项目Extension of the CE/SE Method to Turbulent Flows with Combustion,GZ:BE 1199/19-1 国家科技支撑计划(WFSD-10)汶川地震断裂带科学钻探专项二级课题断裂带深部流体作 用与地震活动特征 国家自然科学基金专项基金项目(41340027)二氧化碳注入过程中咸水层孔隙压的演变规律 及预测方法 国家973计划项目(2011CB707300)二氧化碳减排储存和资源化利用的基础研究子课题 内蒙古自治区科技重大专项(2021ZD0034)二氧化碳地质封存安全评价与监测技术集成示范 专题 人社部留学人员科技活动择优资助项目重点类项目(201410) 中央公益性行业专项重点项目(ZDJ2016610)断裂带分布式光纤应变监测关键技术及其集成 示范应用 |
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获奖及荣誉: 中国地震局防震减灾优秀人才百人计划第一批人选 中国地震局骨干人才 中国地震防震减灾科技成果奖二等奖“强震孕育和发生动力学过程的数值模拟研究” |
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主要从事计算地球流体力学基础理论与工程应用,提出基于粒子水平集方法的多孔介质多相流动数学模型,有效克服复杂相界面追踪与多相耦合计算中的精度衰减问题;创新发展高精度时空守恒元与解元算法,建立环境流体力学计算新框架,显著提升大梯度流场与物质输运过程的模拟精度;基于流体弹塑性模型构建小行星超高速撞击多尺度仿真体系,揭示极端冲击条件下地质材料的相变演化规律;提出孔隙-裂隙双重介质体系流体压力波传播的广义格林函数解析方法,建立多尺度岩体渗流-应力耦合分析理论框架,为深层能源开采与地质灾害防控提供理论基础。相关研究成果被选为美国物理学会期刊(Featured)亮点论文及(Editor’s pick)编辑优选论文,所建数值模型入选美国能源部Sim-SEQ模式比对研究计划。 |
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主要论文: S Wang, L.Q Zhang, L Cong, J Zhou, D.X. Yang, X.F. Zhang, Z.H. Han, 2025, Three‑Dimensional Lattice Modeling of Interaction Behavior Between Hydraulic Fractures and Natural Fractures with Varied Morphologies in Hot Dry Rock, Rock Mechanics and Rock Engineering, doi.org/10.1007/s00603-024-04324-4 S Wang, L.Q Zhang, J Zhou, D.X. Yang, Z.H. Han, Kong Y.L, 2024, Quantitative analysis of fracture network geometry on fluid flow and heat transfer in hot dry rock geothermal reservoirs, Energy, doi.org/10.1016/j.energy.2024.133815. L.F. Zhang, Z.H.Chen, T.M. He, D.X.Yang, Y.Zhao, Y.S.Tan, 2023, A hybrid acousto-optical method for multiscale interpretation of strain localization in sandstone subjected to uniaxial compression, International Journal of Rock Mechanics and Mining Sciences, doi: 10.1016/j.ijrmms.2023.105369. L.Yang, L.Z.Zhang, D.X.Yang, 2022, Asymmetric micro-dynamics in spatial anonymous public goods game, Applied Mathematics and Computation, doi:10.1016/j.amc.2021.126737 D.X.Yang,2021,Numerical modeling of laboratory-scale asteroid impact based on elastoplastic flow model and CESE method, AIP Advances, doi: 10.1063/5.0064441 (Featured) Z.L.Ge, Q.Sun, T.Yang, T.Luo, H.Jia, D.X.Yang, 2021, Effect of high temperature on mode-I fracture toughness of granite subjected to liquid nitrogen cooling, Engineering Fracture Mechanics, doi: 10.1016/J.ENGFRACMECH.2021.107834 L.F.Xu,Q.Li,M.Simon A,Y.S.Tan,D.X.Yang,C.K.Fan, 2021,Strain characteristics and permeability evolution of faults under stress disturbance monitoring by fibre bragg grating sensing and pressure pulses, Geomechanics and Geophysics for Geo-Energy and Geo-Resources,doi: 10.1007/s40948-021-00289-8 D.X.Yang,2021,Compressional wave propagation in saturated porous media and its numerical analysis using space-time conservation element and solution element method, Review of Scientific Instruments, doi: 10.1063/5.0064186 L.F. Zhang, D.X.Yang, Z.H.Chen, A.H.Liu,2020, Deformation and failure characteristics of sandstone under uniaxial compression using distributed fiber optic strain sensing, Journal of Rock Mechanics and Geotechnical Engineering, doi: 10.1016/J.JRMGE.2019.12.015 J.Zhou,L.Q.Zhang,S.W.Qi,D.X.Yang,2020,Empirical ratio of dynamic to static stiffness for propped artificial fractures under variable normal stress, Engineering Geology, doi: 10.1016/i.enggeo.2020.105683 J.Zhou,H.G.Lan,L.Q.Zhang,D.X.Yang,J.Song,SWang,2019,Novel grain-based model for simulation of brittle failure of Alxa porphyritic granite, Engineering Geology, doi: 10.1016/J.ENGGEO.2019.02.005 C.K.Chen,Q.Li,D.X.Yang,J.L.Ma,2019,Fiber Bragg grating-based experimental and numerical investigations of CO2 migration front in saturated sandstone under subcritical and supercritical conditions, Greenhouse Gases Science and Technology, doi: 10.1002/GHG.1838 L.F.Zhang,D.X.Yang,Z.H.Chen,2019,Deformation and failure characteristics of weathered granite under uniaxial compression, AIP Advances, doi: 10.1063/1.5113661 D.X.Yang,M.Doschoris,L.Z.Zhang,2018,Analysis of pressure diffusion-wave fields in matrix-fracture media using Green functions of frequency domain, Journal of Applied Physics, doi: 10.1063/1.5040667 (Editor’s pick) L.H.Yang,Z.J.Xu,L.Z.Zhang,D.X.Yang,2018,Strategy intervention in spatial voluntary public goods games, Europhysics Letters, doi: 10.1209/0295-5075/122/10003 L.H.Yang,Z.J.Xu,L.Z.Zhang,D.X.Yang,2018, Benefits of intervention in spatial public goods games, Physics Letters A, doi: 10.1016/J.PHYSLETA.2018.10.001 C.K.Fan, Q.Li, J.L.Ma, D.X.Yang, 2018, Fiber Bragg grating-based experimental and numerical investigations of CO2 migration front in saturated sandstone under subcritical and supercritical conditions, Greenhouse Gases Sciences and Technology, doi: 10.1002/ghg.1838 Q.Li,H.Shi,D.X.Yang,X.C.Wei,2017, Modeling the key factors that could influence the diffusion of CO2 from a wellbore blowout in the Ordos Basin, China, Environmental Science and Pollution Research, doi: 10.1007/S11356-016-8036-8 D.X.Yang, D.L.Zhang, 2017, Preface of the special issue on Advances of Numerical Methods for Fluid-Solid Interaction in Geophysical Flows, Progress in Computational Fluid Dynamics,17(1) (国际专辑) Y.K.Sun,Q.Li,C.K.Fan,D.X.Yang,A.Sun,2017, Fiber-optic monitoring of evaporation-induced axial strain of sandstone under ambient laboratory conditions, Environmental Earth Sciences, doi: 10.1007/S12665-017-6706-6 Y.K.Sun,Q.Li,D.X.Yang,C.K.Fan,A.Sun, 2016, Investigation of the dynamic strain responses of sandstone using multichannel fiber-optic sensor arrays, Engineering Geology, doi: 10.1016/J.ENGGEO.2016.08.008 L.H.Yang,D.X.Yang,D.L.Zhang,Z.Q.Xue,2016,Numerical analysis of confined flow past permeable square cylinder with CE/SE method, Progress in Computational Fluid Dynamics, doi: 10.1504/PCFD.2016.078756 D.X.Yang,Q.Li,L.Z.Zhang,2016, Propagation of pore pressure diffusion waves in saturated dual-porous media, Journal of Applied Physics, doi: 10.1063/1.4946832 D.X.Yang,Q.Li,L.Z.Zhang,2015, Propagation of pore pressure diffusion waves in saturated porous media, Journal of Applied Physics, doi: 10.1063/1.4916805 L.Zhang,D.X.Yang,Y.W.Liu,Y.T.Che,D.J.Qin, 2014, Impact of impoundment on groundwater seepage in the Three Gorges Dam in China based on CFCs and stable isotopes, Environmental Earth Sciences, doi: 10.1007/S12665-014-3349-8 Y.W.Liu,F.R.Xie,T.Chen,D.X.Yang,L.Q.Xu,2014, Analysis of fluid induced aftershocks following the 2008 Wenchuan Ms 8.0 earthquake, Tectonophysics, doi: 10.1016/J.TECTO.2013.09.010 L.Zhang,Y.W.Liu,L.S.Guo,D.X.Yang,Z.Fang,T.Chen,2014, Isotope geochemistry of mercury and its relation to earthquake in the Wenchuan Earthquake Fault Scientific Drilling Project Hole-1 (WFSD-1), Tectonophysics, doi: 10.1016/J.TECTO.2013.08.025 D.X.Yang,D.L.Zhang,2012,Application of the CE/SE scheme to incompressible viscous flows in two-sided lid-driven square cavities, Chinese Physics Letters, doi: 10.1088/0256-307X/29/8/084707 D.X.Yang,Z.Q.Xue,M.Simon A.,2012,Analysis of momentum transfer in a lid-driven cavity containing a Brinkman-Forchheimer medium, Transport in Porous Media, doi: 10.1007/S11242-011-9893-8 D.X.Yang,R.S.Zeng,D.L.Zhang,2011,Numerical simulation of convective stability of the short-term storage of CO2 in saline aquifers, International Journal of Greenhouse Gas Control, doi: 10.1016/j.ijggc.2010.11.004
杨多兴, 张德良, 曾荣树, 李国敏, 刘耀炜, 沙海军, 2010, 基于时空守恒元与解元(CE/SE)方法的孔隙介质多相流动计算,地球物理学报,53,189-196. 刘耀炜,许丽卿,杨多兴, 2011,龙滩水库诱发地震的孔隙压力扩散特征, 地球物理学报,54,1028-1037. 杨多兴, 李琦, 王舒, 2014,可压缩流体饱和孔隙介质中孔隙压力波传播数值分析, 岩土力学,35,2047-2056. 李琦, 石晖, 杨多兴, 2016, 碳封存项目井喷CO2扩散危险水平分级方法研究, 岩土力学,37,2070-2078. 师文佳, 丛琳, 杨多兴, 2024, 饱和黏弹性孔隙介质中压缩波的频散与衰减, 岩土力学,45,2900-2906.
发明专利: 杨多兴, 2025,一种监测地质埋存体二氧化碳泄露的方法,ZL 2024 1 0280731.X 张路青,李晓,周剑,李建彬,杨多兴,王颂,2024,一种压力室结构和渗透率测试系统,ZL201811057074.3 刘晔,杨多兴,周飞,2019,一种布里渊光时域分析温度、应变解耦方法及系统,ZL201910010423.4 杨多兴,张路青,2016,用于岩石压裂渗流微震试验的高密闭性压力容器,ZL2014101095653 杨多兴,薛自求,刘耀炜,谢富仁,2013,地震地下流体观测井及用其测定地震前兆异常信息的系统和方法,ZL201110333114.4
软件著作权登记: 杨多兴,孔隙介质可压缩流动时空守恒元与解元方法计算软件V1.0,2022SR1495032 杨多兴,基于Darcy-Brinkman-Biot理论的孔隙弹性波动计算软件V1.0,2021SR1514206
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