王利民

姓 名: 王利民

性 別: 男

職 務: 無

通訊地址: 北京市海淀區中關村北二街1號

王利民，男，1979年生，博士，中國科學院過程工程所研究員、博士生導師。2008年獲中科院過程工程所化學工程博士學位，2008年到2009年在法國國家科研中心(CNRS)進行博士後研究，2009年11月回國後歷任中科院過程工程所助理研究員、副研究員、研究員，2012年入選中科院青年創新促進會會員。主要從事湍流及顆粒流體系統介尺度理論與方法研究，致力於介尺度科學原理探索工程湍流模型、發展格子Boltzmann框架下顆粒流體系統快速模擬技術，包括湍流模擬、介尺度科學、計算流體力學、流態化和多相反應工程。現任Heat Exchangers期刊編委會成員；迄今在Chem. Eng. Sci，Chem. Eng. J，J.Comput.Phys等期刊上發表論文60餘篇，其中以第一作者和通訊作者身份發表了40多篇，參與Springer專著3部，參與翻譯著作2部。主持中科院前沿科學研究重點項目1項、國家自然基金委項目2項、973課題子課題1項、中科院戰略先導科技專項子課題1項、通用電氣（GE）、聯合利華（Unilever）、道達爾（Total）、寶鋼（Baosteel）合作項目等。已協助指導1名博士後出站，指導或協助指導畢業3名博士生和5名碩士生。

1.Wang Limin*, Zhang Lin. 2016. Lattice Boltzmann method with immersed spring boundaries for flow around deformable porous media. Computers & Fluids, doi:10.1016/j.compfluid.2016.07.003

2.Wang Limin*. 2016. Mesoscale modeling for turbulence based on EMMS principle. SCIENTIA SINICA Physica, Mechanica & Astronomica, doi: 10.1360/SSPMA2016-00222

3.Wang Limin*, Qiu Xiaoping, Zhang Lin, Li Jinghai. 2016. Turbulence originating from the compromise-in-competition between viscosity and inertia. Chemical Engineering Journal, 300: 83–97.

4.Wang Limin*, Qiu Xiaoping, Li Jinghai. 2015. Mesoscale LBM-DEM model for gas-solid two-phase flow. Chinese Journal of Computational Mechanics, 32:685-692.

5.Wang Limin*, Zhang Lin, Lian Guoping. 2015. A CFD simulation of 3D air flow and temperature variation in refrigeration cabinet. Procedia Engineering, 102:1599-1611.

6.Wang Limin*, Fan Yilin, Luo Lingai. 2014. Lattice Boltzmann method for shape optimization of fluid distributor. Computers & Fluids, 94:49-57.

7.Wang Limin*, Zhang Bo, Wang Xiaowei, Ge Wei, Li Jinghai. 2013. Lattice Boltzmann based discrete simulation for gas-solid fluidization. Chemical Engineering Science, 101:228–239.

8.Wang Limin, Fan Yilin, Luo Lingai. 2010. Heuristic optimality criterion algorithm for shape optimization of fluid flow. Journal of Computational Physics, 229: 8031–8044.

9.Wang Limin*, Zhou Guofeng, Wang Xiaowei, Xiong Qingang, Ge Wei. 2010. Direct numerical simulation of particle-fluid systems by combining time-driven hard-sphere model and lattice Boltzmann method. Particuology, 8: 379–382. (Cover paper)

10.Wang Limin, Ge Wei, Chen Feiguo. 2007. Pseudo-particle modeling for gas flows in micro-channels. Chinese Science Bulletin, 52:450–455.

11.Wang Limin, Li Jinghai, Ge Wei. 2007. "Single-phase flows", as a whole section, in Wei Ge et al. Analytical multi-scale method to complex systems in process engineering-bridging reductionism and holism. Chemical Engineering Science, 62:3346–3377.

12.Wang Limin, Ge Wei, Li Jinghai. 2006. A new boundary condition in particle methods. Computer Physics Communications, 174: 386–400.

1. Li Jinghai, Ge Wei, Wang Wei, Yang Ning, Liu Xinhua, Wang Limin, He Xianfeng, Wang Xiaowei, Wang Junwu, KwaukMooson. From Multiscale Modeling to Meso-Science: A Chemical Engineering Perspective—— Principles, Modeling, Simulation, and Application. London: Springer, 2013.

2. Boichot Raphaël, Wang Limin, Luo Lingai, Fan Yilin. “Chapter 6: Cellular automaton methods for heat and mass transfer intensification” in Luo L.(ed.), Heat and Mass Transfer Intensification and Shape Optimization. London: Springer, 2013.

3. Ge Wei, Xu Ji, XiongQingang, Wang Xiaowei, Chen Feiguo, Wang Limin, HouChaofeng, Xu Ming, Li Jinghai. “Chapter 8: Multi-scale continuum-particle simulation on CPU–GPU hybrid supercomputer” in Yuen D. A. et al.(eds.), GPU Solutions to Multi-scale Problems in Science and Engineering. Berlin Heidelberg: Springe ^[1]