（一）个人简介徐洪涛，男，山东烟台人，工学博士，工程师，教授，博士生导师，工程热物理研究所副所长。曾在Parson Brinckerhoff和AECOM等国际著名工程公司从事工程设计与咨询工作6年，有工作经验的国家和地区包括中国大陆、香港、纽约及印度等。近年来主持国家自然科学基金1项，上海市自然科学基金2项，上海市国际科技合作基金1项，参与国家重点研发计划1项，企业课题40余项。近6年来，以第一作者/通讯作者发表SCI论文24篇，EI论文12篇，中文核心论文40余篇。
目前担任的社会学术职务包括：中国工程热物理学会传热传质分会青年工作委员会委员；中国锅炉与锅炉水处理协会锅炉技术委员会委员；中国锅炉与锅炉水处理协会燃烧技术委员会副主任委员；世界交通运输大会(WTC)结构工程-隧道交通工程及防灾减灾-隧道工程火灾烟气蔓延机理及控制技术委员(2017.8~2019.8）；美国防火保护协会(NFPA)、美国消防工程师学会(SFPE)及美国采暖制冷及空调工程师学会(ASHRAE)会员；也参与国家和行业标准的制定，如GB/T 36699-2018《锅炉用液体和气体燃料燃烧器技术条件》; GGCTS002-2018《空调产品PUE能效因子测试规范》；TGGCTS001-2018《微模块产品PUE测试规范》。
联系方式：上海理工大学能源与动力工程学院，上海市杨浦区军工路516号，200093。
话：；电子邮箱：htxu@usst.edu.cn; bsenergy@foxmail.com
（二）研究方向：
1、传热与传质机理、强化换热
2、燃烧污染物生成与防治
3、太阳能利用及节能与储能技术
4、火灾动力学及建筑物理
（三）教育和工作经历：
2011 ～ 现在： 上海理工大学， 能源与动力工程学院， 讲师/副教授
2015 ～ 2016： 清华大学， 航空航天学院， 国内访问****
2009 ～ 2011： Parsons Brinckerhoff (Asia)， 项目经理
2008 ～ 2009： AECOM(Hong Kong), 高级工程师
2006 ～ 2008： Parsons Brinckerhoff (Asia)， 高级工程师
2005 ～ 2006： 香港理工大学， 建设及环境学院， 研究助理
2002 ～ 2006： 香港理工大学， 建设及环境学院， 博士
1999 ～ 2002： 西安交通大学， 能源与动力工程学院， 硕士
1995 ～ 1999： 西安交通大学， 能源与动力工程学院， 学士
（四）主要纵向科研项目：
1、上海市自然科学基金：纳米颗粒团簇效应影响复合相变材料传热的机理研究，主持，2020-2023
2、国家重点研发计划”典型高耗能工业设备节能NQI技术集成及应用示范”项目“锅炉能效与排放指标综合评价技术及平台研究”课题，参与单位负责人，2018-2021
3、上海市2018年度“科技创新行动计划”“一带一路”国际合作项目“太阳能光伏光热系统温控与能效强化机理研究”，主持，2018-2021
4、国家自然科学基金面上项目：方腔内移动物体及其产热引起的对流换热耦合机理研究，主持，2013-2016
5、上海市自然科学基金：地铁隧道内污染物扩散中的流动传热传质研究，主持，2013-2015
6、国家质检总局科技计划项目”移动式燃烧器综合性能测试仪开发与研制”，参与，2016-2017
7、质检公益性行业科研专项项目“火筒加热炉炉内燃烧场研究与热负荷均匀装置研制”, 参与，2013-2014
（五）SCI期刊论文：
1、H.T. Xu, N. Wang, C.Y. Zhang, Z.G. Qu* and F. Karimi. Experimental study on the PV/T-PCM system performance with thermal regulation strategies. Energy Conversion and Management, 2021(229):113660.
2、Z.Q. Luo, H.T. Xu*, L.L. Feng, P. Lin and Q. Lou. 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. 2020, 119: 104911.
3、Y. Fang, Z.G. Qu*, J.F. Zhang, H.T. Xuand G.L. Qi. Charging performance of latent thermal energy storage system with microencapsulated phase-change material for domestic hot water. Energy & Buildings, 2020(224) 110237.
4、Y.H. Fang, H.T. Xu^#, Y.B. Miao, Z.R. Bai, J.L. Niu* and S.M. Deng. Experimental study of storage capacity and discharging rate of latent heat thermal energy storage units. Applied Energy, 2020(275) 115325.
5、Y. Fang, Z.G. Qu*, J.F. Zhang, H.T. Xuand G.L. Qi. Simultaneous charging and discharging performance for a latent thermal energy storage system with a microencapsulated phase change material. Applied Energy, 2020(275) 115353.
6、H.T. Xu, N. Wang, C.Y. Zhang, Z.G. Qu* and M. Cao. Optimization on the melting performance of triplex-layer PCMs in a horizontal finned shell and tube thermal energy storage unit. Applied Thermal Engineering, 2020 (176) 115409.
7、H.T. Xu,C.Y. Zhang, N. Wang, Z.G. Qu* and S.Y. Zhang. Experimental study on the performance of a solar photovoltaic/thermal system combined with phase change material. Solar Energy, 2020(198): 202-211.
8、J. Chen*, C.X. Wang, G.J. Hu,H.T. Xu, P.W. Liu and X. Pan. Airfoil parameterization evaluation based on a modified PARASEC method for a H-Darrious rotor. Energy, 2019(187), 115910.
9、H.T. Xu, Z.Q. Luo, N. Wang, Z.G. Qu*, J. Chen and L. An. Experimental study of the selective catalytic reduction after-treatment for the exhaust emission of a diesel engine. Applied Thermal Engineering, 2019(147): 198-204.
10、H.T. Xu*, Z.Q. Luo, Q. Lou, S.Y. Zhang and J. Wang. 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.
11、Q.L. Ren, H.T. Xu*and Z.Q. Luo. PCM charging process accelerated with combination of triangle fins and nanoparticles by lattice Boltzmann method. International Journal of Thermal Sciences, 2019(140): 466-479.
12、H.T. Xu, Y.B. Miao, N. Wang, Z.G.Qu* and X.C. Wang.Experimental investigations of heat transfer characteristics of MPCM during charging. Applied Thermal Engineering, 2018(144): 721-725.
13、T.S. Liang, H.T. Xu, Z.Z. Zhang，J. Chen* and M. Yang. Lattice Boltzmann simulations of double-diffusive convection in lid-driven composite cavity. Journal of Porous Media, 2020, 23(2): 121-137.
14、J. Chen, H.T. Xu*, Z.Y. Wang and S.P. Han. Thermal performance study of a water tank for a solar system with a Fresnel lens. Journal of Solar Energy Engineering, 2018, 140: 051005-1.
15、H.T. Xu*, F. Karimi, J. Chen, M. Yang and S. Yu. Experimental investigation on a photovoltaic thermal solar system with a linear Fresnel lens. Journal of Energy Engineering, 2018, 144(3): **.
16、Q. Lou, C.Q. Zang, M. Yang and H.T. Xu*.Lattice Boltzmannsimulation of immiscible displacement in the cavity with different channel configurations. International Journal of Modern Physics C, 2017, 28(11): **.
17、Q. Lou*, M. Yang and H.T. Xu. Wetting boundary conditionin an improved lattice Boltzmann method for nonideal gases. Communications in Computational Physics, 2018, 23(4): 1116-1130.
18、Q. Lou*, M. Yang and H.T. Xu.Numerical investigationsof gas-liquid two-phase flows in microchannels. Proc IMechE Part C: J Mechanical Engineering Science, 2018, 232(3): 466-476.
19、F. Karimi, H.T. Xu*, Z.Y. Wang, J. Chen and M. Yang. Experimental study of a concentrated PV/T system using linear Frensel lens. Energy, 2017, 123:402-412.
20、M. M. Ur Rehman, Z.G. Qu*, R.P. Fu and H.T. Xu. Numerical study on free-surface jet impingement cooling with nanoencapsulated phase-change material slurry and nanofluid. InternationalJournal ofHeat and Mass Transfer, 2017, 109:312-325.
21、H.T. Xu,X.W. Liao, Z.G. Qu*, Y.Z. Li and J. Chen.Experimental study of the effect of a radiant tube on the temperature distribution in a horizontal heatingfurnace.Applied Thermal Engineering,2017, 113:1-7.
22、H.T. Xu, T.T. Wang, Z.G. Qu*, J. Chen and B.B. Li. Lattice Boltzmannsimulation of the double diffusivenatural convection and oscillation characteristics inanenclosure filled with porous medium.International Communications in Heat and Mass Transfer, 2017, 81:104-115.
23、J. Chen, L. Chen*, H.T. Xu,H.X. Yang, C.W. Ye and D. Liu. Performace improvement of a vertical axis wind turbine by comprehensive assessment of an airfoil family. Energy, 2016, 114:318-331.
24、H.T. Xu*, B.B. Li, J. Chen, Q. Lou, Z.R. Yan and M. Yang. Lattice BGK simulations of the double diffusive mixed convection in an enclosure with different outlet locations. International Journal of Heat and Mass Transfer, 2016, 92:158-172.
25、F. Karimi, H.T. Xu, Z.Y. Wang, M. Yang*and Y.W. Zhang. Numerical simulation of transient forced convection in a square enclosure containing two circular cylinders. International Journal of Numerical Methods for Heat & Fluid Flow. 2016, 26(1): 307-327.
26、J. Chen, L. Chen, L. Nie, H.T. Xu, M. Yang and C.X. Wang*. Experimental study of two-stage Savonius rotors with different gap ratios and phase shift angles. Journal of Renewable and Sustainable Energy, 8(6), 063302(2016).
27、C. Liu, J. Chen*, H.T. Xu, H.X. Yang, C.W. Ye and D. Liu. Wind tunnel investigation on the two-and three-blade Savonius rotor with central shaft at different gap ration. Journal of Renewable and Sustainable Energy, 2016, 8(1): 648-661.
28、F. Karimi,H.T. Xu, Z.Y. Wang, M. Yang*and Y.W. Zhang. Numerical simulation of steady mixed convection around two heated circular cylinders in a square enclosure. Heat Transfer Engineering, 2016, 37(1): 64-75.
29、J. Chen*, H.X. Yang, M. Yang,H.T. Xu and Z.H. Hu.A comprehensive review of theoretical airfoil design approaches for the lift-type vertical axis wind turbine.Renewable & Sustainable Energy Reviews, 2015, 51:1709-1720.
30、J. Chen*, H.X. Yang, M. Yang and H.T. Xu.The effect of the opening ratio and location on the performance of a novel vertical axis darrieus turbine. Energy,2015, 89: 819-834.
31、B. Wei, M. Yang*, Z.Y. Wang, H.T. Xuand Y.W. Zhang. Flow and thermal performance of a water-cooled periodic transversal elliptical microchannel heat sink for chip cooling. Journal of Nanoscience and Nanotechnology, 2015, 15(4): 3061-3066.
32、M. Yang*, Y.Y. Shen, H.T. Xu, M. Zhao, S.W. Shen and K. Huang. Numerical investigation of the nonlinear flow characteristics in an ultra-supercritical utility boiler furnace. Applied Thermal Engineering, 2015, 88:237-247.
33、H.T.Xu*, R.X. Xiao, F. Karimi, M. Yang and Y.W. Zhang. Numerical study of double diffusive mixed convection around a heated cylinder in an enclosure. International Journal of Thermal Sciences, 2014, 78:169-181.
34、H.T.Xu*, Z.Y. Wang, F. Karimi, M. Yang and Y.W. Zhang. Numerical simulation of double diffusive mixed convection in an open enclosure with different cylinder locations. International Communications in Heat and Mass Transfer, 2014, 52:33-45.
35、H.T.Xu*, F. Karimi and M. Yang. Numerical investigation of thermal characteristics in a solar chimney project. Journal of Solar Energy Engineering, 2014, 136:1-7.
36、F. Karimi, H.T. Xu, Z.Y. Wang, M. Yang*and Y.W. Zhang. Numerical simulation of unsteady natural convection from heated horizontal circular cylinders in a square enclosure. Numerical Heat Transfer, Part A: Applications, 2014, 65:715-731.
37、H.T. Xu*, N.P. Gao and J.L. Niu. A method to generate effective cooling load factors for stratified air distribution systems using a floor-level air supply. HVAC & R Research, 2009, 15(5):915-930.
38、H.T.Xuand J.L. Niu*. Numerical procedure for predicting annual energy consumption of the under-floor air distribution system. Energy and Buildings, 2006, 38(6):641-647.
39、H.T.Xuand J.L. Niu*. Numerical simulation and experimental validation of the swirling turbulent air flow and mixing processes. Numerical Heat Transfer, 2004, Part A, 46(6): 571-586.
（六）EI期刊论文：
1、徐洪涛，黄飞，雷苑*，屈治国*,陈建,崔国民. 青光眼药物跨角膜输运特性实验研究, 工程热物理学报，2020 (已录用)
2、白志蕊，徐洪涛*，屈治国，张剑飞，苗玉波。相变套管式储热系统放冷性能实验研究。化工学报，2020,71(04):1580-1587。
3、张腾腾，屈治国，徐洪涛*，罗祝清，张剑飞，苗玉波。管壳式相变蓄热系统性能实验研究。工程热物理学报，2020。（已录用）
4、张晨宇，白志蕊，罗祝清，徐洪涛*，王宁，曹萌。基于相变材料的太阳能PV/T系统性能实验研究。化工学报，2020,71(S1):361-367。
5、王宁，张晨宇，徐洪涛*，张剑飞。填充多级相变材料的套管式储热器性能研究。化工学报，2019,70(S2): 191-200。
6、陆威，王婷婷，徐洪涛*，陈建，杨茉。复合方腔顶盖驱动双扩散混合对流格子Boltzmann模拟。工程热物理学报，2017, 38(3): 640-647.
7、H.T. Xu, Z.Q. Luo, Q. Lou and J. Chen. Numerical simulation of heat and mass transfer through porous solid with lattice Boltzmann method.Procedia Engineering, 2017, 205: 787-793.
8、F. Karimi, H.T. Xu, Z.Y. Wang, M. Yang* and Y.W. Zhang. Numerical simulation of transient forced convection in a square enclosure contained two heated circular cylinders. International Journal of Numerical Methods for Heat and Fluid Flow, 2016, 26(1): 307-327.
9、沈云羿，杨茉*，徐洪涛，沈思苇，严祯荣。塔式锅炉炉膛烟气侧热偏差机理的数值研究。工程热物理学报，2015, 36(10): 2178-2182.
10、李贝贝，孙文科，吕浩，肖瑞雪，徐洪涛*，杨茉。方腔内双扩散混合对流振荡特性研究。工程热物理学报，2015, 36(4): 874-878.
11、徐洪涛*，肖瑞雪，严祯荣，邵斌，杨茉。方腔内双扩散混合对流数值模拟。化工学报, 2014, 65(S1): 111-118.
12、王鹏，杨茉*，王治云，徐洪涛。非圆通道内变物性流体湍流换热的数值模拟。工程热物理学报，2014, 35(11): 2270-2273.
13、王津，杨茉*，张昆，徐洪涛，李凌。三维紧致修正方法和圆筒内自然对流数值模拟。工程热物理学报，2014, 35(4): 778-781.
14、徐洪涛*，肖瑞雪，杨茉，严祯荣。地下车库火灾产烟量对能见度影响的模拟分析。工程热物理学报，2014, 35(1): 171-174.
15、H.T. Xu*, F. Karimi, K.P. Liu and M. Yang. Numerical study of the thermal characteristics of a solar chimney for creating interior multi-climate zones. Proceedings: 2013 International Conference on Materials for Renewable Energy and Environment, V3: 963-967.