Limin Wang - Institute of Process Engineering %%#IPE%%, Chinese Academy of Sciences

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Limin Wang got his PhD degree from Institute of Process Engineering, CAS, in 2008. From 2008 to 2009, he worked as a postdoctoral fellow in CNRS, France. He has been a professor of chemical engineering at the Institute of Process Engineering, CAS, since 2016. He is engaged mainly in mesoscale concept for turbulence modeling and simulation, and lattice Boltzmann modeling for particle-fluid two-phase flows. He proposed a mesoscale turbulence model based on EMMS's principle, which provided a new viewpoint for exploring turbulence. 发表主要论文（*为通讯作者）： [1] Wang Limin*, Fan Yilin, Luo Lingai*. Lattice Boltzmann method for shape optimization of fluid distributor. Computers & Fluids, 94:49-57, 2014. [2] Wang Limin*, Zhang Bo, Wang Xiaowei, Ge Wei, Li Jinghai. Lattice Boltzmann based discrete simulation for gas-solid fluidization. Chemical Engineering Science, 101:228–239, 2013. [3] Zhang Lin, Qiu Xiaoping, Wang Limin*, Li Jinghai. A stability condition for turbulencemodel: From EMMS model to EMMS-based turbulence model. http://arxiv.org/abs/1311.1272v1, 2013. (Particuology, in press, 2014) [4] Zhang Bo, Wang Limin*, Wang Xiaowei*, Zhang Xianren, Ge Wei, Li Jinghai. Discrete particle simulation of bubbling bed with jet flow at a single orifice based on the lattice Boltzmann method. Chinese Science Bulletin (Chinese Ver), 58:158–169, 2013.(Cover paper) [5] Wei Min, Wang Limin*, Li Jinghai. Unified stability condition for particulate and aggregative fluidization—exploring energy dissipation with direct numerical simulation. Particuology, 11:232–241, 2013. [6] Wei Min, Wang Limin*. Convective heat transfer of air flow in cold cabinet with two-fluid model.Chinese Journal of Chemical Engineering (Chinese Ver), 63 (S1): 138–144, 2012. [7] Xiong Qingang, Li Bo, Zhou Guofeng, Fang Xiaojian, Xu Ji, Wang Junwu, He Xianfeng, Wang Xiaowei*, Wang Limin*, Ge Wei, Li Jinghai. Large-scale DNS of gas–solid flows on Mole-8.5. Chemical Engineering Science 71: 422–430, 2012. [8] Zhou Guofeng, Wang Limin*, Wang Xiaowei, Ge Wei*. Galilean-invariant algorithm coupling immersed moving boundary conditions and Lees-Edwards boundary conditions. Physical Review E 84, 066701, 2011. [9] Zhou Guofeng, Wang Limin*, Wang Xiaowei*, Xiong Qingang, Ge Wei. Direct numerical simulation scheme for particle-fluid systems based on a time-driven hard-sphere and the lattice Boltzmann method. Chinese Science Bulletin (Chinese Ver), 56: 1246–1256, 2011. [10] Wang Limin, Fan Yilin, Luo Lingai. Heuristic optimality criterion algorithm for shape optimization of fluid flow. Journal of Computational Physics, 229: 8031–8044, 2010. [11] Wang Limin*, Zhou Guofeng, Wang Xiaowei, XiongQingang, 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, 2010. (Cover paper) [12] Wang Limin, Ge Wei and Chen Feiguo. Pseudo-particle modeling for gas flows in micro-channels. Chinese Science Bulletin, 52:450–455 2008. [13] Wang Limin, Li Jinghai and Ge Wei. "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, 2007. [14] Wang Limin, Ge Wei and Li Jinghai. A new boundary condition in particle methods. Computer Physics Communications, 174: 386–400, 2006. 专著章节： [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. (484 pages) [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. (193 pages) [3] Ge Wei, Xu Ji, Xiong Qingang, 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: Springer, 2013. (598 pages) 奖励： [1] 葛蔚、徐骥、侯超峰、王小伟、熊勤刚、李博、李曦鹏、陈飞国、许明、王利民、任瑛、王健、张云、何险峰,《基于多尺度异构超级计算机的多尺度离散模拟》，中国科学院超级计算最佳应用奖，中国科学院，2013.

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Limin Wang(王利民)

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