卢涛,博士,教授,博士生导师。2003年获大连理工大学动力机械与工程博士学位,2005年从清华大学动力工程及工程热物理博士后流动站出站,2005年至今在北京化工大学从事教学科研工作,主要讲授工程热力学、流体力学、传热学等课程。2008年-2009年到作为中组部团中央第8批赴青海省博士服务团成员在青海大学挂职锻炼1年,2012年-2013年作为访问学者到美国艾奥瓦州立大学访学1年。
近年来,主要从事核电中流动与传热、结构完整性,以及化工过程强化与优化等相关工程热物理问题作为主要研究方向。作为项目负责人,获得国家自然科学基金3项,教育部新世纪优秀人才支持计划1项,北京市科技新星计划1项,作为学术骨干参与973计划1项,完成企事业委托横向课题10余项。发表论文50余篇,其中SCI收录20余篇,获授权专利4项,省部级三等奖1项。
附:2012年以来代表性学术论文:
[1] Wang Y, Lu T. Influence of theparticle diameter and porosity of packed porous media on the mixing of hot andcold fluids in a T-junction. International Journal of Heat and Mass Transfer.2015;84:680-90.
[2] T. Lu HLW, P. X. Jiang. A Thermo-Hydro-MechanicsBidirectional Coupling Mathematical Model for Drying of Biological PorousMedium. Drying Technology. 2015;33:420-8.
[3] Lu T, Han WW, Zhai H. Numerical simulation of temperaturefluctuation reduction by a vortex breaker in an elbow pipe with thermalstratification. Annals of Nuclear Energy. 2015;75:462-7.
[4] Lu T, Han WW, Jiang PX, Zhu YH, Wu J, Liu CL. Atwo-dimensional inverse heat conduction problem for simultaneous estimation ofheat convection coefficient, fluid temperature and wall temperature on theinner wall of a pipeline. Progress in Nuclear Energy. 2015;81:161-8.
[5] Li SQ, Wang P, Lu T. CFD based approach for modelingsteam–water direct contact condensation in subcooled water flow in a teejunction. Progress in Nuclear Energy. 2015;85:729-46.
[6] Li SQ, Wang P, Lu T. Numerical simulation of directcontact condensation of subsonic steam injected in a water pool using VOFmethod and LES turbulence model. Progress in Nuclear Energy. 2015;78:201-15.
[7] Gao K, Wang P, Lu T, Song T. Experimental investigationand numerical simulation for weakening the thermal fluctuations in aT-junction. Annals of Nuclear Energy. 2015;78:180-7.
[8] Wang Y, Wang P, Lu T. Experimental investigation of thethermal fluctuations in hot and cold fluids mixing in a T-junction filled withspherical particles. Applied Thermal Engineering. 2014;71:310-6.
[9] Lu T, Zhu XG, Li HT. Large-eddy simulation of thermalstratification in a straight branch of a tee junction with or withoutleakage. Progress in Nuclear Energy. 2013;64:41-6.
[10] Lu T, Liu SM, Attinger D. Large-eddy simulations ofstructure effects of an upstream elbow main pipe on hot and cold fluids mixingin a vertical tee junction. Annals of Nuclear Energy. 2013;60:420-31.
[11] Lu T, Li HT, Zhu XG. Numerical simulation of thermalstratification in an elbow branch pipe of a tee junction with and withoutleakage. Annals of Nuclear Energy. 2013;60:432-8.
[12] Lu T, Attinger D, Liu SM. Large-eddy simulations ofvelocity and temperature fluctuations in hot and cold fluids mixing in a teejunction with an upstream straight or elbow main pipe. Nuclear Engineering andDesign. 2013;263:32-41.
[13] Yong-wei WANG TL, Pei-xue JIANG, Peng-fei CHENG,Kui-sheng WANG. Large-eddy simulation of fluid mixing in tee with sinteredporous medium. Applied Mathematics and Mechanics. 2012;33:911-22.
[14] Wang Y, Lu T, Wang K. Effect of particle diameter ofporous media on flow and heat transfer in a mixing tee. Annals of NuclearEnergy. 2012;49:122-30.
[15] LU Tao WY, WANG Kuisheng. Large-eddy Simulation of FluidFlow and Heat Transfer in a Mixing Tee Junction. CHINESE JOURNAL OF MECHANICALENGINEERING. 2012;25:1144-50.
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