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上海交通大学机械与动力工程学院导师教师师资介绍简介-马涛
本站小编 Free考研考试/2021-01-01
马涛 讲师
所在系所制冷与低温工程研究所
办公电话
通讯地址上海交大机械与动力工程学院A楼428室
电子邮件tao.ma@sjtu.edu.cn
个人主页http://me.sjtu.edu.cn/teacher_directory1/matao.html
教育背景 2010.08―2015.01 香港理工大学/建设与环境学院 博士
2006.09―2010.07 中南大学/能源与科学工程学院 学士
工作经历 2016.07―至今 上海交通大学/机械与动力工程学院 讲师,博士生导师
2015.01―2016.07 香港理工大学/屋宇设备工程学系 博士后研究员
出访及挂职经历 2013.05-2013.08 丹麦奥尔堡大学 访问****
研究方向 (1) 太阳能电热综合利用
(2) 可再生能源与建筑集成
(3) 分布式能源系统与能源互联网技术
本课题组招收硕士和博士研究生,欢迎有志青年学子加盟!
欢迎本科学生加入科创小组:大创、PRP、科研实习、节能减排大赛等
科研项目 (1) 2020-2023 国家自然科学基金面上项目,太阳电池光电热转换机理与多物理场耦合研究,负责人
(2) 2020-2021 深圳科创委项目,城市交通光伏路面关键技术研发,负责人
(3) 2020-2023 国家重点研发计划(中挪国际合作),低碳社区建筑清洁能源冷热电联供关键技术及示范,参与
(4) 2018-2020 上海市浦江人才计划,太阳能光伏和相变材料集成系统的电热综合性能研究,负责人
(5) 2018-2022 国家自然科学基金重点项目,太阳能氨-水再吸收多重回热式热泵循环机理与实验研究,参与
(6) 2018-2011 上海市科委国际合作基金,面向建筑能源自维持的建筑构件蓄热式太阳能热泵研究及优化,参与
(7) 2017-2018 企业课题,装配式建筑光伏一体化预制构件的开发与研究,负责人
(8) 2017-2019 上海交通大学科研启动项目,建筑物风光互补可再生能源利用技术的研发和示范,负责人
(9) 2016-2018 国家自然科学基金青年项目,相变蓄热式光伏建筑一体化系统的传热传质及电学性能机理研究(No:**),负责人
(10) 2016-2018 PolyU Matching Grant: Study on thermal and electrical performance of building-integrated photovoltaic system with phase change materials (No: 4-BCCX), Principal Investigator
代表性论文专著 一、期刊论文(h-index=20;SCI他引: 1060;ESI热点论文:2篇;ESI高被引论文:10篇):
【2020】
[58]T. Ma*, M. Li, Photovoltaic thermal module and photothermal connected in series to produce electricity and high-grade heat simultaneously, Applied Energy, 260 (2020) (IF=8.848, JCR Q1).
[57]T. Ma*, L. Shen, The analysis of energy distribution of photovoltaic module under non-standard test condition, Acta Energiae Solaris Sinica, 2020 (in Chinese)
[56]M. Javed, T Ma*, Hybrid pumped hydro and battery storage for renewable energy based power supply system, Applied Energy, (257) 2020 114026. (IF=8.848, JCR Q1)
[55]M. Li, T. Ma*, Photovoltaic thermal module and solar thermal collector connected in series: energy and exergy analysis, Energy Conversion and Management (2020) (IF=8.208, JCR Q1).
[54]M. Javed, T Ma*, Solar and wind power generation systems with pumped hydro storage: Review and future perspectives, Renewable Energy, 148 (2020) 176-192. (IF=6.274, JCR Q1)
[53]W. Gu. T Ma* et al., A coupled optical-electrical-thermal model of the bifacial photovoltaic module, Applied Energy, 258 (2020) 114075, (IF=8.848, JCR Q1)
[52]A. Kazemian, T. Ma* et al., Nanofluid based photovoltaic thermal systems integrated with phase change material: numerical simulation and thermodynamic analysis, Energy Conversion and Management, 205 (2020). (IF=8.208, JCR Q1)
[51]L. Shen, T. Ma* et al., Analysis of the power loss and quantification of the energy distribution in PV module, Applied Energy, 260 (2020), 114333 (IF=8.848, JCR Q1)
[50]A. Kazemian, T. Ma* et al., Energy, exergy and environmental analysis of glazed and unglazed PVT system integrated with phase change material: An experimental approach, Solar Energy, 201 (2020) 178-189. (IF=4.608, JCR Q1)
[49]A. Kazemian, T. Ma* et al., A year-round study of a photovoltaic thermal system integrated with phase change material in Shanghai using transient model, Energy Conversion and Management, 210 (2020) (IF=8.208, JCR Q1)
[48]Y. Zhang, T. Ma* et al. A techno-economic sizing method for grid-connected household photovoltaic battery systems, Applied Energy, 269 (2020) (IF=8.848, JCR Q1).
[47]S. Lin, T. Ma* et al. Prefeasibility study of a distributed photovoltaic system with pumped hydro storage for residential buildings, Energy Conversion and Management, Accepted (2020) (IF=8.208, JCR Q1)
[46]A. Kolahan, T Ma* at al. Semi -3D transient simulation of a nanofluid-base photovoltaic thermal system integrated with a thermoelectric generator, Energy Conversion and Management, 220 (2020) (IF=8.208, JCR Q1)
[45]J. Yan, L, Lu* and T. Ma, Thermal management of the waste energy of a stand-alone hybrid PV-wind-battery power system in Hong Kong, Energy Conversion and Management, 203 (2020) (IF=8.208, JCR Q1)
[44]A. Kristiansen, D. Satola, K. Lee, B. Zhao, T. Ma, R. Wang*, Feasibility study of an off-grid container unit for industrial construction, Sustainable Cities and Society, 61 (2020) 102335 (IF=5.268, Q1)
【2019】
[43]T Ma*, M. S. Javed, Integrated sizing of hybrid PV-wind-battery system for remote island considering the saturation of each renewable energy resource, Energy Conversion and Management, 182 (2019) 178-190. (IF=8.208, JCR Q1, ESI Highly Cited Paper)
[42]T. Ma*, Z. Li, J. Zhao, Photovoltaic panel integrated with phase change materials (PV-PCM): technology overview and materials selection, Renewable and Sustainable Energy Reviews, 116 (2019) (IF=12.110, JCR Q1)
[41]T Ma*, H. Yang et al., Development of walkable photovoltaic floor tiles used for pavement, Energy Conversion and Management, 183 (2019) 764-771. (IF=8.208, JCR Q1)
[40]T Ma*, W. Gu, An improved and comprehensive mathematical model for solar photovoltaic modules under real operating conditions, Solar Energy, 184 (2019) 292-304 (IF=4.608, JCR Q1)
[39]A. Kazemian, T. Ma* et al., Numerical investigation and parametric analysis of a photovoltaic thermal system integrated with phase change material, Applied Energy, 238 (2019) 734-746 (IF=8.848, JCR Q1, ESI Highly Cited Paper)
[38]J. Zhao, T. Ma*, Z. Li, Year-round performance analysis of photovoltaic panel coupled with phase change material, Applied Energy, 245 (2019) 51-64 (IF=8.848, JCR Q1)
[37]M. S. Javed, T Ma*, Techno-economic assessment of a stand-alone hybrid solar-wind-battery system for a remote island using genetic algorithm, Energy, 176 (2019) 704-717 (IF=6.082, JCR Q1)
[36]Z. Li, T. Ma*, J. Zhao, Experimental study and performance analysis on solar photovoltaic panel integrated with phase change material, Energy. 178 (2019) 471-486 (IF=6.082, JCR Q1)
[35]M. Li, T. Ma* et al., Numerical and experimental investigation of precast concrete facade integrated with solar photovoltaic panels, Applied Energy, 253(2019) 113509 (IF=8.848, JCR Q1).
[34]W. Gu, T Ma*, Mathematical modelling and performance evaluation of a hybrid photovoltaic-thermoelectric system, Energy Conversion and Management 198 (2019) 111800 (IF=8.208, JCR Q1)
[33]W. Gu, T Ma*, Coupled electrical-thermal modelling of a photovoltaic module under dynamic conditions, Energy, 188 (2019) (IF=6.082, JCR Q1)
[32]M. Javed, T Ma*, Techno-economic assessment of a hybrid solar-wind-battery system with genetic algorithm, Energy Procedia, 158 (2019) 6384-6392
[31]J. Zhao, Z. Li, T. Ma*, Performance analysis of a photovoltaic panel integrated with phase change material, Energy Procedia, 158 (2019) 1093-1098
[30]A. Kristiansen, T. Ma, R. Wang*, Perspectives on industrialized transportable solar powered zero energy buildings, Renewable and Sustainable Energy Reviews. 108 (2019) 112-124. (IF=12.110, JCR Q1)
[29]M. Guezgou, J. Jurasz, B. Bekkouche, T. Ma, Optimal hybrid pumped hydro-battery storage scheme for off-grid renewable energy systems, Energy Conversion and Management, 199 (2019) 112046 (IF=8.208, JCR Q1)
【2018】
[28]T Ma*, J Zhao, Z Li, Mathematical modelling and sensitivity analysis of solar photovoltaic panel integrated with phase change material, Applied Energy, 228 (2018) 1147-1158. (IF=8.848, JCR Q1)
[27]T Ma*, H. Yang, Development of Inline Hydroelectric Generation System from Municipal Water Pipelines. Energy, 144 (2018) 535-548 (IF=6.082, JCR Q1)
[26]T. Ge, R. Wang*, Z. Xu, Q. Pan, S.Du, X. Chen, T. Ma et al. Solar heating and cooling: Present and future development, Renewable Energy, 126 (2018) 1126-1140. (IF=6.274, JCR Q1, ESI Highly Cited Paper)
[25]X. Chen, Y. Li, Z. Zhao, T. Ma, R. Wang*. General method to obtain recommended tilt and azimuth angles for photovoltaic systems worldwide. Solar Energy, 172 (2018): 46-57 (IF=4.608, JCR Q1)
【2017】
[24]T. Ma*, H. Yang, L. Lu, Long term performance analysis of a standalone photovoltaic system under real conditions, Applied Energy, 201 (2017) 320-331. (IF=8.848, JCR Q1)
[23]T. Ma*, H. Yang, L. Lu, R. Qi, Feasibility study of developing a zero-carbon-emission Green Deck in Hong Kong. Energy Procedia, 105 (2017) 1155-1159
[22]T. Ma*, J. Zhao, J, Han, A Parametric Study about the Potential to Integrate Phase Change Material into Photovoltaic Panel, Energy Procedia, 142 (2017) 648-654
[21]P. Campana, S. Quan, F. Robbiod, A. Lundblad, Y. Zhang, T. Ma, B. Karlssona, J. Yan, Optimization of a residential district with special consideration on energy and water reliability, Applied Energy, 194 (2017) 751-764 (IF=8.848, JCR Q1)
[20]A. Song, L. Lu*, T. Ma, Life-cycle evaluation of different types of cooling systems in buildings, Energy Procedia, 142 (2017) 1743-1748.
【2016】
[19]T. Ma*, H. Yang, L. Lu, Long term performance analysis of a 19.8kWp standalone photovoltaic system in a remote island. Energy Procedia, 103 (2016) 183-188.
[18]P. Campana, S. Quan, F. Robbiod, A. Lundblad, Y. Zhang, T. Ma, et al, Spatial optimization of residential urban district - Energy and water perspectives, Energy Procedia, 88(2016) 38-43.
[17]M. Wang, J. Peng*, N. Li, L. Lu, T. Ma, H. Yang, Assessment of energy performance of semi-transparent PV insulating glass units using a validated simulation model. Energy, 112 (2016) 538-548. (IF=6.082, JCR Q1)
【2015】
[16]T. Ma*, H. Yang, L. Lu, J. Peng, Pumped storage-based standalone photovoltaic power generation system: Modeling and techno-economic optimization, Applied Energy, 137 (2015) 649-659. (IF=8.848, JCR Q1, ESI Hot Paper, ESI Highly Cited Paper, Applied Energy Journal Highly Cited Original Paper)
[15]T. Ma*, H. Yang, L. Lu, Development of hybrid battery-supercapacitor energy storage for remote area renewable energy systems, Applied Energy. 153 (2015) 56-62. (IF=8.848, JCR Q1, ESI Highly Cited Paper)
[14]T. Ma*, H. Yang, Y. Zhang, L. Lu and X. Wang, Using phase change materials in photovoltaic systems for thermal regulation and electrical efficiency improvement: a review and outlook. Renewable and Sustainable Energy Reviews. 43 (2015) 1273-1284. (IF=12.110, JCR Q1, ESI Highly Cited Paper)
[13]T. Ma*, H. Yang, L. Lu, J. Peng, Optimal design of an autonomous solar-wind-pumped storage power supply system. Applied Energy. 160 (2015) 728-736. (IF=8.848, JCR Q1)
[12]T. Ma*, H. Yang, L. Lu, Study on stand-alone power supply options for an isolated community, International Journal of Electrical Power & Energy Systems, 65 (2015) 1-11. (IF=3.588, JCR Q1)
[11]J. Peng, L. Lu*, H. Yang, T. Ma, Comparative study of the thermal and power performances of a semi-transparent photovoltaic fa?ade under different ventilation modes, Applied Energy, 138 (2015) 572-583. (IF=8.848, JCR Q1)
[10]J. Peng, L. Lu*, H. Yang, T. Ma, Validation of the Sandia model with indoor and outdoor measurements for semi-transparent amorphous silicon PV modules, Renewable Energy. 80 (2015) 316-323. (IF=6.274, JCR Q1)
【2014】
[9]T. Ma*, H. Yang, L. Lu, A feasibility study of a stand-alone hybrid solar–wind–battery system for a remote island, Applied Energy, 121 (2014) 149-158. (IF=8.848, JCR Q1, ESI Hot Paper, ESI Highly Cited Paper, Applied Energy Journal Highly Cited Original Paper)
[8]T. Ma*, H. Yang, L. Lu, Feasibility study and economic analysis of pumped hydro storage and battery storage for a renewable energy powered island, Energy Conversion and Management, 79 (2014) 387-397. (IF=8.208, JCR Q1, ESI Highly Cited Paper)
[7]T. Ma*, H. Yang, L. Lu, J. Peng, Technical feasibility study on a standalone hybrid solar-wind system with pumped hydro storage for a remote island in Hong Kong, Renewable Energy, 69 (2014) 7-15. (IF=6.274, JCR Q1, ESI Highly Cited Paper)
[6]T. Ma*, H. Yang, L. Lu, Development of a model to simulate the performance characteristics of crystalline silicon photovoltaic modules/strings/arrays, Solar Energy, 100 (2014) 31-41. (IF=4.608, JCR Q1, ESI Highly Cited Paper)
[5]T. Ma*, H. Yang, L. Lu, Solar photovoltaic system modeling and performance prediction, Renewable and Sustainable Energy Reviews, 36 (2014) 304-315. (IF=12.110, JCR Q1)
[4]T. Ma*, P.A. ?stergaard, H. Lund, H. Yang, L. Lu, An energy system model for Hong Kong in 2020, Energy, 68 (2014) 301-310. (IF=6.082, JCR Q1)
[3]T. Ma*, H. Yang, L. Lu, J. Peng, An Optimization Sizing Model for Solar Photovoltaic Power Generation System with Pumped Storage. Energy Procedia, 61(2014) 5-8.
[2]J. Peng, L. Lu, H. Yang, T Ma, K. Ho, P. Law, Investigating the Shading Impact of Rail on the Energy Output of a PV System in Hong Kong, International Journal of Sustainable Energy Development 3 (2014), 148-153.
【2013】
[1]T. Ma*, H. Yang, L. Lu, Performance evaluation of a stand-alone photovoltaic system on an isolated island in Hong Kong, Applied Energy, 112 (2013) 663-672. (IF=8.848, JCR Q1)
二、专著:
[1] T. Ma, L. Shen. Electrical Energy Storage for Buildings, Handbook of Energy Systems in Green Buildings, Springer 2017
[2] 杨洪兴, 吕琳, 马涛.《太阳能—风能互补发电技术及应用》,中国建筑工业出版社, 2015年1月第一版
[3] H. Yang, X. Gao, T. Ma, X. Guo, D. Liu. Wind energy conversion systems, Handbook of Clean Energy System. New York: Wiley, 2015.
教学工作 课程名称:《太阳能光伏发电基础与应用》,授课对象:本科生(48学时)
课程名称:《复杂动力系统的设计与实践》,授课对象:研究生(64学时)
课程名称:《新能源科学与工程专业实习》,授课对象:本科生
课程名称:《新能源系统》(全英语),授课对象:研究生 (部分章节)
课程名称:《可再生能源的高效转换与利用》,授课对象:本科生 (部分章节)
学术兼职 (1)Applied Energy(影响因子8.848)编委
(2)Energy Research Journal、Insight - Energy Science、International Journal of Sustainable Energy Planning and Management等期刊编委
(3)Current Alternative Energy、Science and Technology of Nuclear Installations等期刊特邀客座编辑
(4) 瑞士、西班牙、智利、爱沙尼亚等基金评审专家
(5)大会报告Keynote speech in 9th Asia-Pacific Power and Energy Engineering Conference 2017
(6)大会报告Keynote speech in Interntaional Conference on Resource and Environmental Science 2016
(7) IEA annext 67成员、IEA SHC task 65成员
(8) IEEE PES会员
(9)“9th International Conference on Applied Energy”分会场主席;“Applied Energy Symposium and Forum 2016”分会场主席;国际会议“SusTEM2015, UK”学术委员会成员;国际会议“ACEEED2016, Dubai”学术委员会成员;VIII. 国际会议“SET2013, Hong Kong”秘书组组长
(10)长期担任多个SCI期刊的审稿人:Renewable and Sustainable Energy Reviews, Applied Energy, Progress in Photovoltaics: Research and Applications, Energy, Environmental Science & Technology, Energy Conversion and Management, Solar Energy; International Journal of Electrical Power & Energy Systems; International Journal of Energy Research; IET Renewable Power Generation; International Journal of Photoenergy; Energies; Sustainability; Journal of Solar Energy Engineering
荣誉奖励 2020年 上海交通大学‘晨星****’
2019年 Energy and Built Environment优秀青年****奖
2018年 Publons Top Reviewer (前1%)
2018年 上海市浦江人才计划(A类)
2018年 “Applied Energy” 高被引论文奖(Highly Cited Paper Award)
2017年 纽伦堡国际发明金奖
2017年 上海交通大学优秀班主任
2017年 “Renewable & Sustainable Energy Reviews”,“Energy”和“Applied Thermal Engineering”优秀审稿人(Outstanding Reviewer Award)
2016年 “Applied Energy”和“Solar Energy”优秀审稿人(Outstanding Reviewer Award)
2016年 上海市科协“飞翔计划”
2016年 汤森路透高被引****奖(Thomson Reuters Highly Cited Researcher Award)
2016年 “Applied Energy” 高被引论文奖(Highly Cited Paper Award)
2015年 香港理工大学优秀博士论文(Outstanding PhD Thesis Award)
2015年 “Energy Conversion and Management” 优秀审稿人(Outstanding Reviewer Award)
2013年 亚太经济合作组织低碳城镇与物理储能国际会议上最佳论文奖(Best Paper Award)
2006-2010年 国家奖学金、国家励志奖学金、米塔尔”奖学金、首届“比亚迪”奖学金、中南大学一等奖学金等
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张鹏教授所在系所制冷与低温工程研究所办公电话通讯地址上海交通大学机械与动力工程学院A楼405室电子邮件zhangp@sjtu.edu.cn个人主页www.sjtuirc.sjtu.edu.cn/cn/faculties_zp.html教育背景1995-1999上海交通大学博士1991-1995上海交 ...上海交通大学师资导师 本站小编 Free考研考试 2021-01-01上海交通大学机械与动力工程学院导师教师师资介绍简介-胡鸣若
胡鸣若副教授??所在系所燃料电池研究所办公电话mingruohu(微信)通讯地址能源研究院203室(东区综合实验楼4号楼)电子邮件mingruohu@sjtu.edu.cn个人主页教育背景2000.04―2004.01上海交通大学机械与动力工程学院博士1997.09―2000.04上海理工大学动力学 ...上海交通大学师资导师 本站小编 Free考研考试 2021-01-01