（一）研究方向
1.相变传热
2.机器学习
3.多相多组分反应流
4.多尺度数值方法

（二）联系方式
邮箱：louqin560916@163.com
办公室：上海理工大学能源与动力工程学院二办411

（三）教育和工作经历
2014～至今 上海理工大学 讲师/副教授
2019～2020 布朗大学 访问****
2007～2013 华中科技大学 硕士/博士
2003～2007 河南大学 学士

（四）主要科研项目
主持国家自然科学基金面上项目“CO2地质封存过程中多相多组分反应流体输运的格子Boltzmann数值建模及物理机理研究”（**），2020-2023.
主持上海市自然科学基金面上项目“孔隙介质内多相多组分反应流体输运的格子Boltzmann方法及微观机理研究”（19ZR**）)，2019–2021年
主持国家自然科学基金青年项目“基于格子Boltzmann方法的致密多孔介质内的相变传热与流动机理研究”（**），2015-2017
参与国家****基金“多相流体动力学多场耦合和尺度关联的介观理论和模型” (**)，2012–2015
参与国家自然科学基金“混合气体微尺度输运的格子Boltzmann模型及应用研究”(**)，2010–2012

参与提高石油采收率国家重点实验室课题“致密介质中的多组分气体渗流微观机理的数值研究”2009–2011

参与湍流与复杂系统国家重点实验室（LTCS）开放课题基金“多尺度气固两相流的格子Boltzmann方法研究”2010–2011

参与国家自然科学基金青年基金“基于格子Boltzmann方法的潜艇泵喷推进器流噪声预报研究”，(**)2011–2013

参与国家重大基础研究专项基金(973)子课题“二氧化碳减排、储存和资源化利用的基础研究”专题“ CO2 驱油中的渗流力学理论” (2011CB707305)2011–2015

（五）相关成果：
1. HaoyuanWang, Qin Lou*, LingLi, Mesoscale simulations of saturated flow boiling heat transfer in a horizontal microchannel, Numerical Heat Transfer, Part A: Applications, 78:4, 107-124.
2. HaoyuanWang, Qin Lou*, LingLi, Mesoscale simulation of pool boiling on a cylinder heater under controlled wall temperature, IOP Conference Series: Earth and Environmental Science,371,03206,2019.
3. Qin Lou*, Tao Li, Mo Yang,Numerical simulation of the bubble dynamics in a bifurcated micro-channel using the lattice Boltzmann method, Journal of Applied physics, 2019,126:034301.
4. Qin Lou*, Yifan Huang, and Ling Li, Lattice Boltzmann model of gas-liquid two-phase flow of incomprssible power-law fluid and its application in the displacement problem of porous media.Acta Physica Sinica,2019，68：214702.
5. Qin Lou* , Tao Li , Mo Yang , Lattice Boltzmann simulations of bubble rises driven by buoyancy in a complex micro-channel, Acta Physica Sinica, 2018，234701.
6. Qin Lou*, Mo Yang, and Hongtao Xu, Wetting Boundary Condition in an Improved LatticeBoltzmann Method for Nonideal Gases, Communications in Computational Physics 2018, 23,1116-1130.
7. Qin Lou*, Mo Yang, and Hongtao Xu, Numerical investigations of gas–liquidtwo-phase flows in microchannels, Proceeding of the Institution of Mechanical Engineers, Part C: Journal of Mechanical of Engineering Science, 2018,232,466-476
8. Qin Lou*, Chenqiang Zang, Mo Yang, and Hongtao Xu*,Lattice Boltzmann simulation of immiscible displacementin the cavity with different channel configurations, International Journal of Modern Physics C, 2017, 28, **.
9. ChenqiangZang,QinLou*, Lattice Boltzmann simulation of immiscible displacement in the complex micro-channel, Acta Physica Sinica 2017, 66(13): 134701.
10. Qin Louand ZhaoliGuo*, Interface-capturing lattice Boltzmann equation model for two-phase flows,Physical Review E 2015 91, 01330.
11. Qin Lou, Zhaoli Guo*, and Baochang Shi. Evaluation of outflow boundary conditions for two-phase lattice Boltzmann equation. Physical Review E, 2013; 87: 063301.
12. Qin Lou, Zhaoli Guo*, and Baochang Shi. Effects of force discretization on mass conservation in lattice Boltzmann equation for two-phase flows. EPL-Europhys Lett, 2012; 99: 64005.
13. Qin Lou, Zhaoli Guo*, and Chuguang Zheng. Some Fundamental Properties of Lattice Boltzmann Equation for Two Phase Flows. CMES-Computer Modeling in Engineering & Sciences, 2011; 76: 175-188.
14.Hongtao Xu*, Beibei Li, Jian Chen, Qin Lou, Zhenrong Yan, Mo Yang，Lattice BGK simulations of the double diffusive mixed convection in anenclosure with different outlet locations，International Journal of Heat and Mass Transfer，2016.92,158-172
15.Mo Yang*, Ziwen Ding, Qin Lou, and Zhiyun Wang,Lattice Boltzmann Method Simulation of Natural ConvectionHeat Transfer in Horizontal Annulus, Journal of Thermophysics and Heat Transfer,2017,31,700-711.
16.Hongtao Xu*, Zhuqing Luo, Qin Lou, et al. Lattice Boltzmann simulations of the double-diffusive natural convection and oscillation characteristics in an enclosure with Soret and Dufour effects. International Journal of Thermal Sciences, 2019,136,159-171.
17.Yi Liu, Ling Li, Qin Lou, A hyperbolic lattice Boltzmann method for simulating non-Fourier heat conduction, International Journal of Heat and Mass Transfer, 2019, 131, 772-780.
18.Hongtao Xu, , Zhuqing Luo, Qin Lou, Jian Chen，Numerical simulation of heat and mass transfer through porous solid with lattice Boltzmann method，Procedia Engineering, 2017,205,787-793.
19.Zhuqing Luo, and Hongtao Xu, and Qin Lou, and Lingling Feng, and Jinpeng Ni, GPU-accelerated lattice Boltzmann simulation of heat transfer characteristics of porous brick roof filled with phase change materials，International Communications in Heat and Mass Transfer，119，104911，2020.
20. 娄钦，罗祝清，王俊，徐洪涛，陈健，基于Soret和Dufour效应的方腔内双扩散自然对流振荡特性研究，应用数学和力学，2018.39,147-159.
21. 娄钦，李涛，李凌，气泡在含障碍物微通道内的特性研究，上海理工大学学报，2018,40，13-18.
22. 王俊，娄钦，徐洪涛，陈建，杨茉。考虑Soret和Dufour效应的方腔内双扩散自然对流格子Boltzmann模拟.计算物理,2017,35,405-412.
23. 娄钦，臧晨强，王浩源，李凌，基于格子Boltzmann 方法的微通道内不混溶气液两相二氧化碳界面动力学行为研究.计算物理. 2019 36(1):153-164.
24. 罗祝清, 娄钦, 徐洪涛, 杨茉，热质双扩散与流固共轭传热及吸附的LBM模拟，计算物理，2019 36(1):60-68.
25.唐古月，娄钦*，李凌，格子Boltzmann方法分析不同加热尺寸和瑞利数对可变形开口腔内自然对流的影响，计算物理，2020,37(3):263-276
26. 黄一帆,娄钦*，T型微通道内的幂律流体液滴破裂行为的格子Boltzmann方法模拟，应用数学和力学，41(10):1125-1145.2020.