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周強
(西安交通大學化學工程與技術學院教授)
鎖定
周強人物經歷
2016.10-至今 西安交通大學化工系,教授,博導
2015.08-2016.09 西安交通大學化工系,特聘研究員,博導
2014.01-2015.08 美國俄亥俄州立大學化學與生物分子工程系,Research Associate,導師:Liang-Shih Fan
2010.10-2013.12 美國俄亥俄州立大學化學與生物分子工程系,博士後,導師:Liang-Shih Fan
2004.09-2010.07 清華大學航天航空學院工程力學專業,流體力學方向博士,導師:何楓
2000.09-2004.07 浙江大學機械與能源工程學院工程力學專業,竺可楨學院工高班,本科,導師:林建忠
周強研究方向
氣固兩相流理論及應用、微尺度及介尺度建模
智慧工廠、反應流動動態智能預測及調控、機器學習在氣固流動中的應用
煤/生物質/固廢熱解制化學品
直接碳燃料電池
周強科研項目
周強所獲榮譽
2016年入選國家級青年人才
2014年獲得美國化學家聯合會(American Institute of Chemists (AIC)) 基金會獎-傑出博士後獎
周強科研成果
周強期刊論文
(1). X. Li, X. Chen, B. Yang, Q. Zhou*, 2023 Direct numerical simulation of moderate-Reynolds-number flow past arrays of ellipsoids, AIChE Journal, 69(10): e18162.
(2). S. Du, Y. Zhao, L. Zhao, Q. Zhou, X. Chen*, 2023 Direct numerical simulation of flow past a reactive/inert mixed particle pair, Physics of Fluids, 35(6), 063308.
(3). X. Chen, Y. Zhao, S. Du, L. Zhao, Q. Zhou*, 2023 Impact of Stefan flow on the interphase scalar transfer in flow past random particle arrays, Chemical Engineering Journal, 470: 143885.
(4). X. Chen, T. Ma, Q. Zhou*, 2022 Theoretical and numerical analysis of drag force at the interface between the dilute and dense phases, Physics of Fluids, 34(9), 093306.
(5). F. Duan, Y. Yu, X. Chen, Q. Zhou*, 2022 Particle-particle drag force in inertial bidisperse gas-particle suspensions, Journal of Fluid Mechanics, 952: A11.
(6). Y. Li, S. Han, Y. Yu, X. He, Z. Huang, Q. Zhou*, 2022 Modeling filtered heat transfer model by considering dimensionless temperature difference between gas and solid phases, AIChE Journal, 69(1): e17917.
(7).Y. Yu, Y. Li, X. Chen, F. Duan, Q. Zhou*, 2021 Improvement of the Coarse-Grained Discrete Element Method for Frictional Particles. Industrial & Engineering Chemistry Research, 60, 5651-5664.
(8).Z. Huang, L. Wang, Y. Li, Q. Zhou*, 2021 Direct numerical simulation of flow and heat transfer in bidisperse gas-solid systems. Chemical Engineering Science, 239, 116645.
(9).L. Zhao, X. Chen, Q. Zhou*, 2021 Inhomogeneous drag models for gas-solid suspensions based on sub-grid quantities. Powder Technology, 385, 170-184.
(10).X. H. Chen, S. Du, L. Zhao, B. Yang, Q. Zhou*, 2021 Effect of Stefan flow on the drag force in flow past random arrays of spheres. Chemical Engineering Journal, 412, 128691.
(11).Z. Huang, L. Wang, Q. Zhou*, 2021 Development of a filtered reaction rate model for reactive gas-solid flows based on fine-grid simulations. AIChE Journal, e17185.
(12).F. Duan, L. Zhao, X. Chen, Q. Zhou*, 2020 Fluid-particle drag and particle-particle drag in low-Reynolds-number bidisperse gas-solid suspensions. Physics of Fluids, 32, 113311.
(13).X. Li, M. Jiang, Z. Huang, Q. Zhou*, 2021 Effect of particle orientation on the drag force in random arrays of oblate ellipsoids in low-Reynolds-number flows. AIChE Journal, 67(1), e17040.
(14).X. Chen, N. Song, M. Jiang, Q. Zhou*, 2020 Theoretical and numerical analysis of key sub-grid quantities' effect on filtered Eulerian drag force. Powder Technology, 372, 15-31.
(15).Y. Zhang, M. Jiang, X. Chen, Y. Yu, Q. Zhou*, 2020 Modeling of the filtered drag force in gas-solid flows via a deep learning approach. Chemical Engineering Science, 225, 115835.
(16).Y. Yu, Y. Li, M. Jiang, Q. Zhou*, 2020 Meso-Scale Drag Model Designed for Coarse-Grid Eulerian-Lagrangian Simulation of Gas-Solid Flows. Chemical Engineering Science, 223,115747.
(17).X. Chen, N. Song, M. Jiang, T. Ma, Q. Zhou*, 2020 A microscopic gas-solid drag model considering the effect of interface between dilute and dense phases. International Journal of Multiphase Flow, 128, 103266.
(18).T. Ma, Y. Yu, X. Chen, Q. Zhou*, 2020 Effect of anisotropic micro-structures on fluid-particle drag in low-Reynolds-number monodisperse gas-solid suspensions. AIChE Journal, 66(4), e16910.
(19).M. Jiang, X. Chen, Q. Zhou*, 2020 A gas pressure gradient dependent subgrid drift velocity model for drag prediction in fluidized gas-particle flows. AIChE Journal, 66(4), e16884.
(20).Z. Huang, C. Zhang, M. Jiang, Q. Zhou*, 2020 Development of a filtered interphase heat transfer model based on fine-grid simulations of gas-solid flows. AIChE Journal, 66(1), e16755.
(21).X. Li, M. Jiang, Z. Huang, Q. Zhou*, 2019 Effect of particle orientation on the drag force in random arrays of prolate ellipsoids in low-Reynolds-number flows. AIChE Journal, 65(8), e16621.
(22).Z. Huang, C. Zhang, M. Jiang, H. Wang, Q. Zhou*, 2019 Effects of particle velocity fluctuations on inter-phase heat transfer in gas-solid flows. Chemical Engineering Science, 206, 375-386.
(23).Z. Huang, H. Wang, Q. Zhou*, T. Li, 2017 Effects of granular temperature on inter-phase drag in gas-solid flows, Powder Technology, 321, 435-443.
(24).Q. Zhou, L.S. Fan*, 2015 Direct numerical simulation of moderate-Reynolds-number flow past arrays of rotating spheres, Physics of Fluids, 27, 073306.
(25).Q. Zhou, L.S. Fan*, 2015 Direct numerical simulation of low-Reynolds-number flow past arrays of rotating spheres, Journal of Fluid Mechanics, Vol. 765, 396-423.
(26).Q. Zhou, L.S. Fan*, 2014 A second-order accurate immersed boundary-lattice Boltzmann method for particle-laden flows, Journal of Computational Physics, Vol. 268, 269-301.
(27).Q. Zhou, L. Zeng, L.S. Fan*, 2013 Syngas chemical looping process: dynamic modeling of a moving bed reducer. AIChE Journal, 59(9), 3432-3443.
(28).H. Yang, Q. Zhou, L.S. Fan*, 2013 Three-dimensional numerical study on droplet formation and cell encapsulation process in a micro T-junction. Chemical Engineering Science, Vol. 87, 100-110.
(29).Q. Zhou, Feng He*, M.Y. Shen, 2012 Direct numerical simulation of a spatially developing compressible plane mixing layer: flow structures and mean flow properties. Journal of Fluid Mechanics, Vol. 711, 437-468.
(30).Q. Zhou, Z.H. Yao, F. He*, M.Y. Shen, 2007 A new family of high-order compact upwind difference schemes with good spectral resolution. Journal of Computational Physics, Vol. 227/2, 1306-1339.
周強出版著作
計算流體力學入門/(美)安德森(Anderson, J. D.)著;姚朝暉,周強編譯. --北京:清華大學出版社,2010.12
