王沫然 - 清华大学 - 航天航空学院

个人简介

教育背景 1999.7 清华大学工程力学系学士学位 2004.7 清华大学工程力学系博士学位工作履历 2004-2006 美国约翰霍普金斯大学，博士后 (Postdoctoral Fellow) 2006-2008 美国加州大学戴维斯分校，博士后 (Research Associate) 2008-2011 美国Los Alamos国家实验室，奥本海默学者 (Oppenheimer Fellow) 2007-2012 美国约翰霍普金斯大学，访问科学家 (Visiting Scientist) 2018-2019 美国普林斯顿大学，访问教授 (Visiting Professor) 2011-至今清华大学航天航空学院工程力学系，教授学术兼职学会会员：ASME(2003至今)，APS(2005至今)，AGU(2009至今)，Interpore(2013至今，lifetime member)，中国力学学会，中国工程热物理学会，中国化工学会，中国地质学会，中国航空宇航学会国内学术服务：兼任力学学会流体力学学会渗流力学专业组委员会委员、电磁流体力学专业组委员、化工学会过程模拟及仿真委员会委员、地质学会纳米地质委员会委员、航天微推进技工作组委员，担任中石油勘探院提高采收率国家重点实验室学术委员会委员和黑龙江省油层物理与渗流力学重点实验室学术委员会委员，担任国家财政部、国资委、科技部、基金委、JK委以及留学基金委等机构的评审委员会成员。国际学术服务：担任国际多孔介质学会(Interpore Chapter Committee)学术委员会委员及奖励委员会委员；担任美、欧、澳等国家自然基金外审评审人和美国能源部及NASA外审专家期刊任职： International Journal of Mechanical Sciences编委（Associate Editor）ASME出版，SCI Journal of Fluid Engineering-ASME编委（Associate Editor）ASME出版，SCI（2014-2022） Journal of Geophysical Research-Solid Earth编委（Associate Editor）AGU出版，SCI（2014-2022） Energy编委（Associate Editor）Elsevier出版社，SCI（2012-2017） Journal of Porous Media编委（Associate Editor）Belgellhouse出版社，SCI Journal of Colloid and Interface Science编委（Editorial Board Member）Elsevier出版社，SCI Energies编委（Editorial Board Member）SCI Energy Science and Engineering编委（Editorial Board Member）Wiley出版社，SCI Transport in Porous Media编委（Editorial Board Member）Springer出版社，SCI Special Topics & Reviews in Porous Media编委（Associate Editor）Belgellhouse出版社，SCI Advances in Mechanical Engineering编委（Editorial Board & Advisor Board Member）SAGE出版社，SCI（2008-2019） Colloid and Interface Science编委（Editorial Board Member），SCI（2015-2019）《应用数学与力学》编委《计算物理》编委《Petroleum》编委会议任职：多次担任微流体力学、微纳传热及非常规地质力学相关国际系列会议的科学委员会委员或组织者。奖励与荣誉 2020 世界排名前2%科学家（美国斯坦福大学评选） 2019 国际多孔介质学会Interpore P&G Award for Porous Media Research 2014-22 Elsevier高被引中国学者 2014 河南省科技进步二等奖 2013 吴仲华优秀青年学者奖 2008 美国能源部J. Robert Oppenheimer Fellowship Award 2008 教育部自然科学一等奖 2006 教育部全国优秀博士论文（提名奖） 2004 清华大学“学术新秀”奖（全校共8名）、优秀博士论文及优秀博士毕业生（全校共20名）

研究领域

微纳尺度流动及界面输运（流动、扩散及能量传递）微观渗流力学及多物理化学耦合输运（非常规油气、碳储存及水净化）多尺度模拟及应用（LBM, MC, MD, BD, PIC等）复杂流体（电动、气泡、颗粒、相变、乳化、软物质等）传热物理及热管理（量子能量输运、转化及存储机理及热力学优化）

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

微尺度气体流动(selected 5) Y. Wang, S. Nolte, G. Gaus, Z. Tian, A. Amann-Hildenbrand, B. Krooss, M. Wang*. An early-time solution of pulse-decay method for permeability measurement of tight rocks. Journal of Geophysical Research-Solid Earth 126: e2021JB022422, 2021 Z.Y. Wang, M. Wang* S. Chen. Coupling of high-Knudsen and non-ideal gas effects in microporous media. Journal of Fluid Mechanics 840: 56-73, 2018 M. Wang, X. Lan and Z. Li*. Analysis of Gas flows in Micro- and Nanochannels. Int. J. Heat Mass Transfer. 51(13-14): 3630-3641, 2008 M. Wang, Z. Li*. Simulations for gas flows in microgeometries using the direct simulation Monte Carlo method. Int. J. Heat Fluid Flow, 25(6): 975-985, 2004 M. Wang *, Z. Li. Nonideal gas flow and heat transfer in micro- and nanochannels using the direct simulation Monte Carlo method. Physical Review E. 68: 046704, 2003 微尺度液体流动与电动输运(selected 5) A. Alizadeh and M. Wang*. Flexibility of inactive electrokinetic layer at charged solid-liquid interface in response to bulk ion concentration Journal of Colloid and Interface Science 534: 195-204, 2019 L. Zhang, M.A. Hesse and M. Wang. Transient solute transport with sorption in Poiseuille flow. Journal of Fluid Mechanics 828: 733-752, 2017 J. Liu, M. Wang, S. Chen and M. Robbins*. Uncovering Molecular Mechanisms of Electrowetting and Saturation with Simulations. Physical Review Letters. 108: 216101, 2012 M. Wang* and Q. Kang. Electrokinetic transport in microchannels with random roughness. Analytical Chemistry 81 (8), 2953-2961, 2009 M. Wang*, and S. Chen. Electroosmosis in homogeneously charged micro- and nanoscale random porous media. Journal of Colloid and Interface Science 314(1): 264-273, 2007 微尺度多相流动(selected 5) F.L. Liu and M. Wang*. Phase Diagram for Preferential Flow in Dual Permeable Media. Journal Fluid Mechanics 948: A19, 2022 F.L. Liu and M. Wang*. Trapping Patterns during Capillary Displacements in Disordered Media. Journal Fluid Mechanics 933: A52, 2022 W. Lei, X.K. Lu, F.L. Liu, and M. Wang*. Nonmonotonic wettability effects on displacement in heterogeneous porous media. JFM-Rapids, 2022 C.Y. Xie, W. Lei, M. Balhoff, M. Wang* and S. Chen. Self-adaptive preferential flow control using displacing fluid with dispersed polymers in heterogeneous porous media. Journal Fluid Mechanics 906: A10, 2021 (cover page) C.Y. Xie, J. Zhang, V. Bertola, M. Wang*. Lattice Boltzmann Modeling for Multiphase Viscoplastic Fluid Flow. Journal of Non-Newton Fluid Mechanics 234: 118-128, 2016 微孔介质多物理化学耦合输运(selected 5) Y.K. Yang, X.D. Zhang, Z.G. Tian, G. Deissmann, D. Bosbach, P. Liang* and M. Wang*. Ionic Thermodiffusion in Nanoconfined Aqueous Electrolytes. Journal of Colloid and Interface Science 619: 331-338, 2022 A. Alizadeh, X. Jin and M. Wang*. Pore-scale Study of Ion Transport Mechanisms in Inhomogeneously Charged Nanoporous Rocks: Impact of Interface Properties on Macroscopic Transport. Journal of Geophysical Research-Solid Earth 124: 017200, 2019 L. Zhang and M. Wang*. Electro-osmosis in inhomogeneously charged microporous media by pore-scale modeling. Journal of Colloid and Interface Science. 486: 219-231, 2017 L. Zhang, M. Wang*. Modeling of electrokinetic reactive transports using a coupled lattice Boltzmann method. Journal of Geophysical Research-Solid Earth. 120: 2877-2890, 2015 M. Wang*, Q. Kang, H. Viswanathan and B. Robinson. Modeling of electro-osmosis of dilute electrolyte solutions in silica microporous media. J. Geophysical Research-Solid Earth 115: B10205, 2010 量子流体力学理论 (selected 5) W.L. Miao, M. Wang*. Nonequilibrium effects on electron-phonon coupling constant in metals. Physical Review B 103: 125412, 2021 Y.F. Huang and M. Wang*. Nonnegative magnetoresistance in hydrodynamic regime of electron fluid transport in two-dimensional materials. Physical Review B 104: 155408, 2021 Y. Guo, M. Wang*. Phonon hydrodynamics for nanoscale heat transport at ordinary temperature. Physical Review B 97: 035421, 2018 Y. Guo, D. Jou, M. Wang*. Nonequilibrium thermodynamics of phonon hydrodynamic model for nanoscale heat transport. Physical Review B 2018 Y. Guo, M. Wang*. Heat transport in two-dimensional materials by directly solving phonon Boltzmann equation under Callaway’s dual relaxation model. Physical Review B 96: 134312, 2017 微尺度能量渗流 (selected 5) C. Xie, J. Wang N. Pan, D. Wang and M. Wang*. Lattice Boltzmann modeling of thermal conduction in composite materials with thermal contact resistance. Communications in Computational Physics. 17: 1037-1055, 2015 M. Wang*, X. Wang, J.K. Wang and N. Pan. Grain size effects on effective thermal conductivity of porous materials with internal thermal contact resistance. Journal Porous Media. 16(11): 1043-1048, 2013 M. Wang*, N. Pan. Modeling and prediction of the Effective Thermal Conductivity of Random Open-cell Porous Foams. Int. J. Heat Mass Transfer. 51(5-6): 1325-1331, 2008 M. Wang, J. He, J. Yu and N. Pan. Lattice Boltzmann modeling of the effective thermal conductivity for fibrous materials. Intentional Journal of Thermal Sciences 46(9): 848-855, 2007 M. Wang*, J. Wang, N. Pan, and S. Chen. Mesoscopic Predictions of the Effective Thermal Conductivity of Microscale Random Porous Media. Physical Review E. 75: 036702, 2007 热力学分析及优化(selected 5) Y. Guo, M. Wang*. Thermodynamic analysis of gas flow and heat transfer in microchannels. International Journal of Heat and Mass Transfer 103: 773-782, 2016 Y. Guo, Z. Y. Wang, M. Wang*. Thermodynamic extreme principles for non-equilibrium stationary state in heat conduction. Journal of Heat Transfer 139(7): 071303, 2017 X. Shan, M. Wang* and Z. Guo. Geometry optimization of self-similar transport network. Mathematical Problems in Engineering. 2011: 421526, 2011 X. Liu, M. Wang*, J. Meng, E. Ben-Naim and Z. Guo. Minimum dissipation principle for the optimization of transport networks. International Journal of Non-linear Science and Numerical Simulations 11(2): 113-120, 2010 Q. Chen, M. Wang*, N. Pan, and Z. Guo. Optimization principles for convective heat transfer enhancement. Energy. 34(9): 1199-1206, 2009 页岩油/气勘探开发中的输运(selected 5) C.Y. Xie, W. Lv, and M. Wang*. Shear-thinning or Shear-thickening Fluid for Better EOR? — A Direct Pore-scale Study. Journal of Petroleum Science and Engineering 161: 683-691, 2018 Q. Lv, Z. Chen and M. Wang*. An improved elastic-tube model for the correlation of permeability and stress with correction for the Klinkenberg effect. Journal of Natural Gas Science and Engineering 48: 24-35, 2017 J. Zheng, Z. Wang, W. Gong, Y. Ju and M. Wang*. Morphology effects of shale nanopores on gas permeability using lattice Boltzmann modeling. Journal of Natural Gas Science and Engineering 47: 83-90, 2017 Z.Y. Wang, X. Jin, X. Wang, L. Sun, M. Wang*. Pore-scale geometry effects on gas permeability in shale. Journal of Natural Gas Science and Engineering 34: 948-957, 2016 Z.Y. Wang, Y.Y. Guo, M. Wang*. Permeability of high-Kn real gas flow in shale and production prediction by pore-scale modeling. Journal of Natural Gas Science and Engineering 28: 328-337, 2016 放射性废物防护中的输运（selected 5） Y.K. Yang and M. Wang*. Electrodiffusion of cations in compacted clay: a pore-scale view. Environmental Science & Technology 53(4): 1976-1984, 2019 T. Wu*,#, Y.K. Yang#, Z. Wang, Y.H. Tong, M. Wang*. Enhance of anion diffusion caused by the smectite illitization. Water Resource Research. 56(11): e2019WR027037, 2020 Y.K. Yang, R.A. Patel, S.V. Churakov*, N.I. Prasianakis, G. Kosakowski and M. Wang *. Multiscale modeling of ion diffusion in cement paste: electrical double layer effects. Cement and Concrete Composites 96: 55-65, 2019 Y.K. Yang, M. Wang *. Pore-scale study of thermal effects on ion diffusion in clay with inhomogeneous surface charge. Journal of Colloid and Interface Science 514: 443-451, 2018 Y. Yang, X.T. He, M. Li and M. Wang *. Pore-scale modeling of chloride ionic diffusion in cement microstructures. Cement and Concrete Composites 85: 92-104, 2018 流-固-热耦合输运(selected 5) Z.Q. Chen, D. Elsworth and M. Wang*. Does low-viscosity fracturing always create complex fractures? Journal of Geophysical Research-Solid Earth 125(9): e2020JB020332, 2020 Z. Chen, X. Jin and M. Wang*. A new thermo-mechanical coupled DEM model with non-spherical grains for thermally induced damage of rocks. Journal of the Mechanics and Physics of Solids 116: 54-69, 2018 Z. Chen, Z. Yang and M. Wang*. Hydro-mechanical coupled mechanisms of hydraulic fracture propagation in rocks with cemented natural fractures. Journal of Petroleum Science and Engineering 163: 421-434, 2018 Z. Chen and M. Wang*. Pore-scale modeling of hydro-mechanical coupling mechanics in hydro-fracturing. Journal of Geophysical Research-Solid Earth 122: JB013989, 2017 Y. Chen, Q. Kang, Q. Cai*, M. Wang*, D. Zhang. Lattice Boltzmann simulations of particle motion in binary immiscible fluids Communication in Computational Physics 18(3): 757-786, 2015 跨尺度模拟(selected 5) Z.Y. Wang, M. Wang* S. Chen. Coupling of high-Knudsen and non-ideal gas effects in microporous media. Journal of Fluid Mechanics 840: 56-73, 2018 Y.K. Yang, M. Wang*. Upscaling scheme for long-term ion electrodiffusion in microporous media. Physical Review E 96: 023308, 2017 C.Y. Xie, A.Q. Raeini, Y. Wang, M. Blunt*, M. Wang*. An improved pore-network model with viscous coupling effect via direct simulation by lattice Boltzmann method. Advances in Water Resources. 100: 26-34, 2017 G. Liu, J. Zhang and M. Wang*. Drop movements and replacement on surface driven by shear force via hybrid atomistic-continuum simulations. Molecular Simulation. 42(10): 855-862, 2016 S. Chen*, M. Wang, and Z. Xia. Multiscale fluid mechanics and modeling. Procedia IUTAM 10: 100-114, 2014 介尺度高效算法(selected 5) X. Ran, M. Wang*. Efficiency improvement of discrete-ordinates method for interfacial phonon transport by Gauss-Legendre integral for frequency domain. Journal of Computational Physics 399: 108920, 2019 Y. Guo, M. Wang*. Lattice Boltzmann modeling of phonon transport. Journal of Computational Physics 315: 1-15, 2016 M. Wang*, and Q. Kang. Modeling electrokinetic flows in microchannels using coupled lattice Boltzmann methods. Journal of Computational Physics, 229: 728-744, 2010 M. Wang*, and N. Pan. Elastic property of multiphase composites with random microstructures. Journal of Computational Physics 228: 5978-5988, 2009 M. Wang*, J. Wang, and S. Chen. Roughness and Cavitations effects on Electro-osmotic Flows in Rough Microchannels using the Lattice Poisson-Boltzmann Methods. Journal of Computational Physics. 226(1): 836-851, 2007 综述文章 (selected 5) M. Wang, N. Pan. Predictions of Effective Physical Properties of Complex Multiphase Materials. Material Science and Engineering-R: Reports. 63(1): 1-30, 2008 [约稿当年IF=17.731] X. Wang, B. Ding, G. Sun, M. Wang and J. Yu. Electro-spinning/netting. Progress in Materials Science.58: 1173-1243, 2013 [约稿当年IF =25.87] Y. Guo, M. Wang. Phonon hydrodynamics and its applications in nanoscale heat transport. Physics Reports. 595: 1-44, 2015 [约稿当年IF =22.91] H. Tian, M. Wang. Electrokinetic mechanisms of wettability alternation at oil-water-rock interface. Surface Science Reports 72: 369-391, 2017 [约稿当年IF =17.8] W. Lei, X.K. Lu and M. Wang*. Multiphase displacement mechanism by micro/nanoparticle suspension in porous media via microfluidic experiments: From interface science to multiphase flow patterns. Advances in Colloid and Interface Science 311: 102826, 2023 [约稿当年IF=15.19]