汪垒

教育工作经历 Education & Academic Experience

主要学术论文 Selected Papers published in refereed journals

[22]. Liqing Yue, Zhenhua Chai, Lei Wang, Baochang Shi, A lattice Boltzmann for the conjugate heat transfer, International Journal of Heat and Mass Transfer, doi: 10.1016/j.ijheatmasstransfer.2020.120682, 2020. (JCR Q1, IF: 4.947 )

[21]. Guozhi Tang, Lei Wang, Dinggen Li, Use conditional generation adversarial networks to generate porous media with predetermined thermal conductivity, Acta Physica Sinica, In Press, 2020. (JCR Q4, IF: 0.732 )

[20]. Lei Wang, Xuguang Yang, Huili Wang, Zhenhua Chai, Zhouchao Wei, A modified regularized lattice Boltzmann model for convection-diffusion equation with a source term, Applied Mathematics Letters, 112 (2021) 106766. (JCR Q1, IF: 3.848).

[19].Lei Wang,Changsheng Huang, Junjie Hu et al., Effects of temperature-dependent viscosity on natural convection in a porous cavity with a circular cylinder under local thermal non-equilibrium condition, International Journal of Thermal Sciences 159 (2021) 106570, (JCR Q1 IF: 3.476).

[18]. Junjie Hu, Lei Wang, Migration of a neutrally buoyant particle in a shear flow with thermal
convection: A numerical study, International Journal of Heat and Mass Transfer 140 (2019) 21-24, (JCR Q1, IF: 4.947).

[17]. Shi Tao, Qing He, Lei Wang, Simin Huang, Baiman Chen, A non-iterative direct-forcing immersed boundary method for thermal discrete unified gas kinetic scheme with Dirichlet boundary conditions, International Journal of Heat and Mass Transfer 137 (2019) 476-488, (JCR Q1, IF: 4.947).

[16]. Yong Zhao, Lei Wang, Zhenhua Chai, Baochang Shi, Comparative study of natural convection melting inside a cubic cavity using an improved two-relaxation-time lattice Boltzmann model, International Journal of Heat and Mass Transfer 143 (2019) 118449, (JCR Q1, IF: 4.947).

[15]. Lei Wang, Xuguang Yang, Changsheng Huang, Zhenhua Chai, Baochang Shi, Hybrid lattice Boltzmann-TVD simulation of natural convection of nanofluids in a partially heated square cavity using Buongiorno’s mode, Applied Thermal Engineering 146 (2019) 318–327. （JCR Q1刊, IF: 4.026).

[14]. Lei Wang, Yong Zhao, Xuguang Yang, Baochang Shi, Zhenhua Chai*, A lattice Boltzmann analysis of the conjugate natural convection in square enclosure with a circular cylinder, Applied Mathematical Modelling, 2019, 71:31-44. （JCR Q1, IF:2.841).

[13]. Zhenhua Chai, Xiuya Guo, Lei Wang, Baochang Shi*, Maxwell-Stefan-theory-based lattice Boltzmann model for diffusion in multicomponent mixtures, Physical Review E, 2019, 99: 023312. (JCR Q1, IF: 2.353).

[12]. Xuguang Yang, Lei Wang*, Baochang Shi, Coupled MRT lattice Boltzmann study of electrokinetic mixing of power-law fluids in microchannels with heterogeneous surface potential, Advance in Applied Mathematics and Mechanics, 2018, 10(6):1-19. (JCR Q3, IF:0.636).

[11]. Xuguang Yang, Lei Wang, Lattice Boltzmann study of two-phase hydrocarbon fluids based on Peng–Robinson free energy model, International Journal of Modern Physics C, 29, (2018), 1850107. (JCR Q3，IF: 1.017).

[10]. Lei Wang, Changsheng Huang, Xuguang Yang, Zhenhua Chai, Baochang Shi*, Effects of temperature-dependent properties on natural convection of power-law nanofluids in rectangular cavities with sinusoidal temperature distribution, International Journal of Heat and Mass Transfer, 128, 688-699. (JCR Q1, IF: 4.947).

[9]. Lei Wang, ZhenhuaChai*, Baochang Shi, Effects of temperature-dependent properties on natural convection of nanofluids in apartially heated cubic enclosure, Applied Thermal Engineering, 2018, 128(5): 204-213.（JCR Q1, IF: 4.026).

[8]. Yong Zhao, Baochang Shi*, Zhenhua Chai, Lei Wang, Lattice Boltzmann simulation of melting in a cubical cavity with a local heat-flux source, International Journal of Heat and Mass Transfer, 2018, 127: 497-506. (JCR Q1, IF: 4.947).

[7]. Xuguang Yang*, Lei Wang, Multiple-relaxation-time lattice Boltzmann study of the magnetic field effects on natural convection of non-Newtonian fluids, International Journal of Modern Physics C, 2017, 28(11): 1750138. (JCR Q3，IF: 1.017).

[6]. Lei Wang, Zhenhua Chai and Baochang Shi*, Lattice Boltzmann simulation of magnetic field effect on natural convection of power-law nanofluids in rectangular enclosures, Advance in Applied Mathematics and Mechanics, 9(5):1-17 (2017). (JCR Q3, IF:0.636).

[5]. Lei Wang, Zhenhua Chai and Baochang Shi*, Regularized lattice Boltzmann simulation of double-diffusive convection of power-law nanofluids in rectangular enclosures, International Journal of Heat and Mass Transfer, 102 :381-395 (2016). (JCR Q1, IF: 4.947).

[4]. Lei Wang, Baochang Shi, Zhenhua Chai*, and Xuguang Yang, Regularized lattice Boltzmann model for double-diffusive convection in vertical enclosures with heating and salting from below, Applied Thermal Engineering, 103: 365-376 (2016). （JCR Q1, IF: 4.026).

[3]. Lei Wang, Baochang Shi*, and Zhenhua Chai, Regularized Lattice Boltzmann Model for a class of convection-diffusion equations, Physical Review E, 92: 043311 (2015). (JCR Q1, IF: 2.353).

[2]. Lei Wang, Baochang Shi*, and Zhenhua Chai, A lattice Boltzmann study of the asymmetry effect on the hemodynamics in stented fusiform aneurysms, Computers and Mathematics with Applications, 71, 328-348 (2016). (JCR Q1, IF: 2.811).

[1]. A method of oil reservoir fluid simulation based on lattice-Boltzmann model, Patent No. : ZL201610554629.X

科研课题 Funded Research Projects

[3]. 国家自然科学基金青年项目(National Natural Science Foundation of China)，12002320、孔隙尺度下开孔泡沫金属内流动沸腾换热机理的高效格子Boltzmann方法研究（Research on efficient lattice Boltzmann method for flow boiling heat transfer mechanism in open-cell metal foams at pore scale level）、2021/01-2023/12。

[2]. 中央高校基本科研业务费专项资金资助项目 (Fundamental Research Funds for the Central Universities)，CUG180618、纳米流体传输机理的格子Boltzmann研究（Lattice Boltzmann study of nanofluid transport mechanism ）、2018/01-2020/12。

[1]. 华中科技大学研究生创新创业项目 (Graduates’ Innovation Fund of Huazhong University of Science & Technology)，0118650032、纳米流体流动与能量传递的格子 Boltzmann 建模与仿真（Research on lattice Boltzmann method for nanofluid flow and heat transfer）、2016/01-2017/12。