汪垒, 河南信阳人,2017年6月获博士学位, “地大学者”青年优秀人才(2017), “地大学者”青年拔尖人才(2021),主要研究方向包括计算流体力学,高性能计算以及物理信息网络等。在流体力学领域知名期刊Physical Review E, Computers & Fluids, International Journal of Multiphase Flow, Physics of Fluids和热力学领域知名期刊 International Journal of Heat and Mass Transfer, Applied Thermal Engineering等发表SCI(E)论文40余篇,论文累计他引700余次。现任太阳成集团的官方网站suncitygroup太阳新城副教授,博士生导师.
课题组网页:https://fluidlab.top, 课题组邮箱:leiwang@cug.edu.cn; wangleir1989@126.com
教育工作经历:
[4] 2020.12至今, 太阳成集团的官方网站,suncitygroup太阳新城,副教授
[4] 2017.12至2020.11, 太阳成集团的官方网站,suncitygroup太阳新城,特任副教授
[3] 2017.06至2017.11,华为技术有限公司(杭州),2012实验室,高级工程师B(16级),方向:云化工具链开发和自然语言处理
[2] 2013.09至2017.05 华中科技大学,数学系,博士,导师:施保昌,方向:复杂系统建模与仿真
[1] 2012.09至2013.06 华中科技大学,数学系,硕士,导师:路志宏,方向:智能信息处理
学术交流和社会服务:
[10] 担任SCI期刊《Physics Scripta》(JCR: Q2, IF: 2.9)特刊” Focus on fundamentals and applications of electrostatics “客座编辑;
[9] 担任SCI期刊《Mathematics》(JCR: Q1, IF: 2.4)特刊”Computational Fluid Dynamics of Heat Transfer and Applications“客座编辑;
[8] 2023年首届电磁流体力学研讨会邀请报告---“电流体力学的介观LBM建模和应用模拟”
[7] 担任第十一届格子玻尔兹曼方法及其应用学术论坛分会场Chairman;
[6] 担任武汉工业与应用数学学会理事;
[5] 担任SCI期刊《Energies》(JCR: Q3, IF: 3.2) 特刊“Computational Fluid Dynamics in Thermal Storage, Conversion, and Management”客座编辑;
[4] 担任第九届全国LB方法及其应用学术研讨会分会场Chairman;
[3] 担任中国舰船研究设计中心“xxx设计与仿真”,“xxx计算和分析”等GF项目评审专家;
[2] 担任Int. J. Heat Mass Transf., Phys. Fluids,Appl. Math. Model., Int. Commun. Heat Mass Transf., Acta Phys., Sin. PLoS One, Comput. Math. Appl., Can. J. Phys.,等多个国内外期刊的审稿人;
[1] 担任武汉云衡智能科技有限公司人工智能领域技术顾问。
主持以及参与的科研项目:
[9] 复杂微通道内电场操纵液滴动力学行为的介观建模与机理研究,国家自然科学基金面上项目 (No. 12372287, 2024.1-2027.12, 分账20%), 合作单位负责人.
[8] 数据驱动的电池智能故障诊断算法研究, 企业委托项目 (No: 2022126170, 2022.4-2022.10), 课题负责人。
[7] 大规模空间点云数据处理服务及拟合计算服务, 企业委托项目 (No: 2022126127, 2022.4-2022.10), 课题负责人。
[6] 多台智能无人机协同作业系统在环保检测中的应用和产业化,安徽省科技重大专项项目 (No: 20200104013, 2020.10-2023.10), 课题负责人。
[5] 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,国家自然科学基金青年科学基金项目(No: 12002320, 2021.01-2023.12), 课题负责人。
[4] 纳米流体传输机理的格子Boltzmann研究,中央高校基本科研业务费专项资金资助项目(No:CUG180618, 2018.01-2020.12), 课题负责人。
[3] 纳米流体流动与能量传递的格子 Boltzmann 建模与仿真,华中科技大学研究生创新创业项目(No: 0118650032, 2016.01-2017.01, 课题负责人。
[2] 微尺度多孔介质中多组分气体传输机理的格子 Boltzmann 方法研究,国家自然科学基金项目(No:51576279, 2016.01-2019.12, 骨干成员(4/8)。
[1] 页岩气藏中气体传输机理的格子Boltzmann 方法研究,湖北省自然科学基金项目 (No:2015CFB440, 2014.12-2016.12), 骨干成员(3/7)。
发表论文和专利(*表示通讯作者, #表示合作指导的华中科技大学硕士研究生)
[45] JiangXu Huang (硕士生), Lei Wang*, Xuguang Yang, An efficient thermal lattice Boltzmann method for simulating three-dimensional liquid-vapor phase change, Computers and Fluids, 273 (2024) 106214.
[44]. Junjie Hu, Huagang He, Lei Wang, Huili Wang, Zhenhua Chai, Hui Pan, Motion of a neutrally buoyant circular particle in a lid-driven square cavity with a semicircular obstacle, International Journal of Modern Physics C, 1 (2024) 2450004. (JCR Q2, 中科院四区)
[43]. Lei Wang*, Kun He, Huili Wang, Phase-field-based lattice Boltzmann model for simulating
thermocapillary flows, Physical Review E, 108 (2023) 055306, (JCR Q1, 中科院三区)。
[42]. Jiangxu Huang (硕士生), Lei Wang*, Junjie Hu, Numerical investigation of droplet impact dynamics on Janus-textured heated substrates, Physics of Fluids, 35 (2023) 107134 (JCR Q1, 中科院一区TOP, IF: 4.6).
[41]. Kun He(硕士生), Yong Zhao, Lei Wang*, Numerical investigation on electrohydrodynamic enhancement of solid–liquid phase change in three-dimensional cavities, International Journal of Multiphase Flow, 168 (2023) 104562. ( JCR Q1, 中科院二区, IF: 3.8)
[40]. 杨旭光,汪垒*, 多相多组分Peng-Robinson流体的正则化格子Boltzmann方法研究及模拟,力学学报, 55 (2023) 1649-1661 (EI, 中文核心)
[39]. Xinyue Liu (硕士生),Lei Wang*, Jiangxu Huang, Xugunag Yang, Lattice Boltzmann method with diffusive scaling for thermal flows in porous media, Computational Geosciences, DOI: 10.1007/s10596-023-10210-9 ( JCR Q3, 中科院三区,IF: 2.948).)
[38]. Jiangxu Huang (硕士生), Lei Wang*, Xinyue Liu, Lattice Boltzmann method for solute transport in dual-permeability media, Journal of Hydrology 619 (2023) 129339 (JCR Q1, 中科院一区TOP, IF: 6.708).
[37]. Chunyue Lv (硕士生), Lei Wang*, Chenming Xie, A hybrid physics-informed neural network for nonlinear partial differential equation, International Journal of Modern Physics C, DOI: doi.org/10.1142/S012918312350082, 2022 (JCR Q3, 中科院四区, IF: 1.353).
[36]. Lei Wang*, JiangXu Huang, Kun He, Thermal lattice Boltzmann model for liquid-vapor phase change, Physical Review E, 106 (2022) 055308 (JCR Q1,中科院三区, IF:2.707).
[35]. Jiangxu Huang (硕士生), Lei Wang*, Kun He, Three-dimensional study of double droplets impact on a wettability-patterned surface, Computers & Fluids 248 (2022) 105669 (JCR Q2,中科院三区, IF: 3.077).
[34]. Kun He (硕士生), Ben Ma, Lei Wang*, Electrohydrodynamic enhancement of phase change material melting in cylindrical annuli under microgravity, Applied Thermal Engineering 7 (2022) 119005 (JCR Q1,中科院一区TOP, IF: 6.465).
[33]. Ben Ma (硕士生#), Xiaoyin Zhang, Lei Wang, Kun He, Dinggen Li*, Numerical study on melting performance improvement with fractal-tree-shaped fins, Physics of Fluids, 34 (2022) 047107 (JCR Q1, 中科院一区TOP, IF: 4.98).
[32]. Kun He (硕士生), Lei Wang*, Jiangxu Huang, Electrohydrodynamic enhancement of phase change material melting in circular-elliptical annuli, Energies, 14 (2021) 8090 (JCR Q3,中科院四区, IF: 3.252).
[31]. Ben M (硕士生#), Lei Wang, Kun He, Dinggen Li*, Electro-thermo-convection in power-law fluids within a square enclosure with an inner cylinder, Physics of Fluids, 33 (2021) 083104 (JCR Q1,中科院一区TOP, IF: 4.98).
[30]. Xudan Liang (硕士生#), Lei Wang, Dinggen Li*, Ben Ma, Kun He, Lattice Boltzmann modeling of double-diffusive convection of dielectric liquid in rectangular cavity subjected to unipolar injection, Physics of Fluids, 33 (2021) 067106 (JCR Q1,中科院一区TOP, IF: 4.98).
[29]. 刘镇涛 (硕士生),肖莉,和琨,汪垒*,二维局部受热腔体内电热对流问题模拟和分析,力学学报, 53(2021) DOI: 10.6052/0459-1879-21-205 (EI, 中文核心)
[28]. Jiangxu Huang(硕士生), Kun He, Lei Wang*,Pore-scale investigation on natural convection melting in a square cavity with gradient porous media, Energies, 14 (2021) 4274 (JCR Q3,中科院四区,IF: 3.252注亮点论文)
[27]. Kun He(硕士生), Zhenhua Chai, Lei Wang*, Ben Ma, Baochang Shi, Numerical investigation of electro-thermo-convection with a solid-liquid interface via the lattice Boltzmann method, Physics of Fluids, 33 (2021), 037128 (JCR Q1,中科院一区TOP,IF: 4.98).
[26]. 和琨(硕士生), 郭秀娅, 张小盈, 汪垒*, 方腔内电场强化固液相变传热研究, 物理学报, 70 (2021) 149101 (JCR Q3,中科院四区, IF: 0.906).
[25]. Xiaoying Zhang (硕士生#), Lei Wang, Dinggen Li*, Lattice Boltzmann simulation of natural convection melting in a cubic cavity with an internal cylindrical heat source, International Journal of Thermal Sciences,165 (2021) 106917 (JCR Q1,中科院二区, IF: 4.779).
[24]. Ben Ma (硕士生#), Lei Wang, Kun He, Dinggen Li*, Xudan Liang, A lattice Boltzmann analysis of the electro-thermo convection and heat transfer enhancement in a cold square enclosure with two heated cylindrical electrodes, International Journal of Thermal Sciences,164 (2021) 106885 (JCR Q1,中科院二区,IF: 4.779).
[23]. Lei Wang*, Zhouchao Wei, TianFu Li, Zhenhua Chai, Baochang Shi, A lattice Boltzmann modelling of electrohydrodynamic conduction phenomenon in dielectric liquids, Applied Mathematical Modelling, 95 (2021) 361-378 (JCR Q1,中科院一区TOP,IF: 5.336).
[22]. Liqing Yue, Zhenhua Chai*, Lei Wang, Baochang Shi, A lattice Boltzmann model for the conjugate heat transfer, International Journal of Heat and Mass Transfer,165 (2021) 120682 (JCR Q1,中科院一区TOP,IF: 5.431).
[21]. 唐国智(硕士生#), 汪垒, 李顶根*, 使用条件生成对抗网络生成预定导热率多孔介质,物理学报,(2021) doi: 10.7498/aps.70.20201061 (JCR Q3,中科院四区, IF: 0.906).
[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,中科院一区TOP,IF: 4.294).
[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,,中科院二区,IF: 4.779).
[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,中科院一区TOP,IF: 5.431).
[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,中科院一区TOP,IF: 5.431).
[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,中科院一区TOP,IF: 5.431).
[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,,中科院一区TOP, IF: 6.465).
[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,中科院一区TOP,IF: 5.336).
[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,中科院三区, IF:2.707).
[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 Q2,中科院三区,IF: 1.295).
[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, 中科院四区, IF: 1.353).
[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,中科院一区TOP,IF: 5.431).
[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,中科院一区TOP, IF: 6.465).
[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,中科院一区TOP,IF: 5.431).
[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, 中科院四区, IF: 1.353).
[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 Q2,中科院三区,IF: 1.295).
[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,中科院一区TOP,IF: 5.431).
[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,中科院一区TOP, IF: 6.465).
[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,中科院三区, IF:2.707).
[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,中科院二区TOP,IF: 3.218).
[1]. 一种基于格子-玻尔兹曼模型的油层流体模拟方法,专利号:ZL201610554629.X
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[3] 2019年,年度教师本科教学质量评价中位列院前10%
[2] 2017年,获华中科技大学“优秀毕业研究生”
[1] 2016年,获博士研究生“国家奖学金”