徐洪涛
(按照姓氏拼音排序)

      (一)个人简介

    徐洪涛,男,山东烟台人,工学博士,工程师,副教授,博士生导师,工程热物理研究所副所长。曾在Parson BrinckerhoffAECOM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。

    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

    电话:021-55272015;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,       国内访问学者

    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、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

    2、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,2018-2020

    3、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

    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、上海市科委自然科学基金: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、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 M. Cao. Optimization on the thermal performance of a horizontal finned shell and tube thermal energy storage unit filled with triplex-layer PCMs. 2020, Applied Thermal Energy (Submitted).

    2. Y.H. Fang, H.T. Xu#, Y.B. Miao, Z.R. Bai, J.L. Niu and S.M. Deng. Experimental study of enhancing effective storage capacity and discharging rate of a thermal energy storage system using expanded graphite-PCM composite. 2020, Applied Energy (Submitted).

    3. Y. Fang, Z.G. Qu*, J.F. Zhang, H.T. Xu and G.L. Qi. Charging performance of latent thermal energy storage system with microencapsulated phase-change material for domestic hot water. 2020, Energy and Buildings (Submitted).

    4. 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. 2020, Solar Energy (Accepted).

    5. 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. 2020, Energy (Accepted).

    6. 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 emission of a diesel engine. Applied Thermal Engineering, 2019(147): 198-204 (SCI: 000454974700018)

    7. 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(SCI:000467003100015) 

    8. Q.L. Ren, H.T. Xu* and Z.Q. Luo. Numerical analysis of PCM charging process accelerated with combination of triangle fins and nanoparticles by lattice Boltzmann method. International Journal of Thermal Sciences, 2019 (SCI: 000470680300038)

    9. 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(SCI: 000451499600068) 

    10. T.S. Liang, H.T. Xu, Z.Z. ZhangJ. Chen* and M. Yang. Lattice Boltzmann simulations of double-diffusive convection lid-driven composite cavity. Journal of Porous Media, 2019 (SCI, Accepted).

    11. 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. (SCI: 000447204100005) 

    12. H.T. Xu*, F. Karimi, J. Chen, M. Yang and S. Yu. Experimental investigation on a PV/T solar system with a linear Frensel lens. Journal of Energy Engineering, 2018, 144(3): 04018012 (SCI: 000431116000001) 

    13. Q. Lou, C.Q. Zang, M. Yang and H.T. Xu*. Lattice Boltzmann simulation of immiscible displacement in the cavity with different channel configurations. International Journal of Modern Physics C, 2017, 28(11): (SCI: 000417894500006)

    14. Q. Lou*, M. Yang and H.T. Xu. Wetting boundary condition in an improved lattice Boltzmann method for nonideal gases. Communications in Computational Physics, 2018, 23(4): 1116-1130 (SCI: 000426271300012) 

    15. Q. Lou*, M. Yang and H.T. Xu. Numerical investigations of gas-liquid two-phase flows in microchannels. Proc IMechE Part C: J Mechanical Engineering Science, 2018, 232(3): 466-476 (SCI: 000424058400007) 

    16. 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. (SCI: 000399510900035)

    17. 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.  International Journal of Heat and Mass Transfer, 2017, 109:312-325 (SCI: 000400227300029)

    18. 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 heating furnace. Applied Thermal Engineering, 2017, 113:1-7 (SCI: 000394723300001)

    19. H.T. Xu, T.T. Wang, Z.G. Qu*, J. Chen and B.B. Li. Lattice Boltzmann simulation of the double diffusive natural convection and oscillation characteristics in an enclosure filled with porous medium. International Communications in Heat and Mass Transfer, 2017, 81:104-115 (SCI: 000397359200013)

    20. 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 (SCI: 000387194800026)

    21. 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. (SCI: 000364884500017)

    22. 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. (SCI: 000379688400015)

    23. 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). (SCI: 000390115300008)

    24. 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. (SCI: 000376638500020)

    25. 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. (SCI: 000364950500007)

    26. J. Chen*, H.X. Yang, M. Yang, H.T. Xu and Z.H. HuA comprehensive review of theoretical airfoil design approaches for the lift-type vertical axis wind turbine. Renewable & Sustainable Energy Reviews, 2015, 51:1709-1720. (SCI: 000364725700059)

    27. 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. Energy2015, 89: 819-834. (SCI: 000361252500073)

    28. B. Wei, M. Yang*, Z.Y. Wang, H.T. Xu and 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. (SCI000347435100068)

    29. 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. (SCI: 000361160300026)

    30. 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. (SCI: 000332443800017)

    31. 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. (SCI: 000334484100005)

    32. 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. (SCI: 000329932700017)

    33. 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. (SCI: 000336837400001)

    34. 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. (SCI000272788700007)

    35. H.T. Xu and 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. (SCI: 000237186400011)

    36. H.T. Xu and 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. (SCI: 000223842900003) 

    37. H.T. Xu and J.L. Niu*. CFD simulation of airflow characteristics of swirling floor diffusers. Proceedings of the 8th International IBPSA Conference, 3:1429-1433, 11-14 August, 2003, Eindhoven, Netherlands. (SCI: 000189002100026) 

     (六)EI期刊论文:

    1. J.J. Bao, D. Wang, F. Liu, Z.G. Qu and H.T. Xu*. Transient evaporation simulation of the forced circulation hot water boiler. (Accepted)

    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(已录用)

    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(已录用)

    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.(已录用)

    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. 

      (七)荣誉及获奖:

    1. 2018年上海理工大学“优秀就业指导师”;

    2. 2017/2018年美国大学生数学建模竞赛一等奖,指导教师;

    3. 2015年美国大学生数学建模竞赛二等奖,指导教师;

    4. 2015年第八届全国大学生节能减排大赛一等奖,指导教师;

    5. 《传热学》,2015年上海高校外国留学生英语授课示范性课程建设,负责人;

    6. 上海市科学技术成果,上海轨道交通长区间通风方案研究,第七完成人,2009

    7. William BarclayParsons Fellow, 2008, Parsons Brinckerhoff Company, 2008.