2011.02－2014.08，香港理工大學屋宇設(shè)備工程學系，獲哲學博士學位

2013.08－2013.11，美國勞倫斯伯克利國家實驗室，博士訪問研究

2007.09－2010.07，中國科學院研究生院制冷與低溫工程專業(yè)，獲碩士學位

2007.09－2008.07，中國科學技術(shù)大學熱科學與能源工程系，碩士專業(yè)課學習

2003.09－2007.06，南京師范大學建筑環(huán)境與設(shè)備工程專業(yè)，獲學士學位

2019.08－至今，湖南大學土木工程學院副院長

2017.04－至今，湖南大學土木工程學院教授、博士生導師

2017.09－至今，美國勞倫斯伯克利國家實驗室高級客座研究員

2015.10－2017.09，美國勞倫斯伯克利國家實驗室博士后研究員（Postdoctoral Research Fellow）

2014.08－2015.09，香港理工大學屋宇設(shè)備工程學系博士后研究員（Postdoctoral Research Fellow）

2014.02－2014.08，香港理工大學屋宇設(shè)備工程學系副研究員（Research Associate）

2010.08－2011.02，香港理工大學屋宇設(shè)備工程學系研究助理（Research Assistant）

[1] 能源領(lǐng)域國際著名期刊《Applied Energy》助理編輯，《Energy & Built Environment》編委，《Journal of Thermal Science》副主編

[2] SCI 雜志《Applied Energy》,《Building Simulation》,《Sustainability》,《Energies》和《Frontier》客座編輯

[3] 美國采暖、制冷與空調(diào)工程師學會(ASHRAE)會員

[4] 國際建筑能效模擬委員會（IBPSA）會員

[5] 國際可再生能源技術(shù)學會(WSSET)會員

[6] ISHVAC國際學術(shù)委員會委員

[7] 全國暖通空調(diào)學會模擬委員會委員

[8] 全國暖通空調(diào)學會青年委員會委員

[9] Applied energy, Energy, Solar Energy, Environmental Science & Technology, Energy and Buildings, Renewable &Sustainable Energy Review, Applied Thermal Energy, Progress in Photovoltaics: Research and Applications,Building Simulation 等雜志審稿人

主要從事太陽能建筑一體化光伏發(fā)電，分布式能源存儲，建筑能源需求側(cè)管理，建筑智慧能源系統(tǒng)，先進窗戶和幕墻技術(shù)方面的研究工作。與海外著名研究機構(gòu)，如美國勞倫斯伯克利國家實驗室、加州大學伯克利分校、香港理工大學、英國拉夫堡大學的研究人員建立了長期合作關(guān)系。歡迎建筑環(huán)境與能源應(yīng)用、制冷與低溫工程、電氣自動化、控制科學與工程、計算機科學技術(shù)等專業(yè)的學生加入研究團隊。

主持的研究項目：

[1] 國家重點研發(fā)計劃“長江流域建筑供暖空調(diào)解決方案和相應(yīng)系統(tǒng)”課題五“間歇模式下集散式供暖空調(diào)系統(tǒng)構(gòu)建與優(yōu)化運行關(guān)鍵技術(shù)研發(fā)”（課題編號：2016YFC0700305）

[2]國家自然科學基金項目"真空復合型半透明光伏窗光電熱耦合作用機理及光熱性能調(diào)控研究"

[3] 國家自然科學基金項目“太陽光譜影響下通風型半透明光伏幕墻熱電耦合作用機理與實驗研究”

[4] 湖南省科技創(chuàng)新平臺與人才計劃

[5] 湖南大學青年教師成長計劃“夏熱冬冷地區(qū)通風型半透明光伏玻璃幕墻綜合能源效益研究”

作為CO-I或主要完成人完成的科研項目：

[1] 美國能源部 R&D of advanced window technologies for energy saving

[2] 美國能源部 Windows core project—Most efficient ENERGY STAR windows

[3] 美國加州能源署（CEC）High-Performance, Integrated Window and Fa?ade Solutions for California Buildings

[4] Development of novel high dispersed transparent heat insulation paints for glass. Hong Kong ITC supported.

[5] Investigation on the thermal and power performance of vacuum BIPV curtain wall technology and its application potential in buildings in Hong Kong. Hong Kong CIC supported.

[6] Guangdong-Hong Kong Technology Cooperation Funding Scheme (Research Platform) (ZP5N(GHP/040/08GD)):Investigation and development of large-scale (MW) grid connected thin film photovoltaic power stationsintegrated with buildings

[7] ECF (Environment and Conservation) Project 9/2008: Environmental payback time analysis of building-integrated photovoltaic (BIPV) applications in Hong Kong

[8] Renewable energy application and energy conservation in public rental housing department in Hong Kong. HongKong HA supported.

[9] 2014/15 CUP Public Policy Research (PPR) (2013.A6.010.13A): Study on the Development Potential and EnergyIncentives of Rooftop Solar Photovoltaic Applications in Hong Kong

[10] Feasibility study on tri-generation of power, chilled water and hot water at Shatin sewage treatment works

[11] Thermal performance of the glass with coated transparent heat insulation paint (THIP) as building glazingfacade

[12] Testing and evaluation of indoor and outdoor environment for public housing in Hong Kong. Hong Kong HAsupported.

[13] 2010/12 PolyU FCLU Deanu2019s Award for Outstanding Achievement in Research Funding 2010 (1-ZV6Z): Overallenergy performance of building-integrated photovoltaic (BIPV) applications in Hong Kong.

[1] Meng Wang, Jinqing Peng*, Nianping Li, Hongxing Yang, Chunlei Wang, Xue Li, Tao Lu. Comparison of energyperformance between PV double skin facades and PV insulating glass units. Applied Energy 2017; 194:148-160.(SCI)

[2] Jinqing Peng, Dragan C. Curcija, Lin Lu, Stephen E. Selkowitz, Hongxing Yang, Weilong Zhang. Numericalinvestigation of the energy saving potential of a semi-transparent photovoltaic double-skin facade in acool-summer Mediterranean climate. Applied energy 2016; 165: 345-356. (SCI)

[3] Meng Wang, Jinqing Peng*, Nianping Li, Lin Lu, Tao Ma, Hongxing Yang. Assessment of energy performance ofsemi-transparent PV insulating glass units using a validated simulation model. Energy 2016; 112:538-548.(SCI)

[4] Jinqing Peng, Dragan C. Curcija, Lin Lu, Stephen E. Selkowitz, Robin Mitchell. Developing a method andsimulation model for evaluating the overall energy performance of a ventilated semi-transparentphotovoltaic double-skin fa?ade. Prog. Photovolt: Res. Appl. (2015). (SCI)

[5] Jinqing Peng, Lin Lu, Hongxing Yang, Tao Ma. Comparative study of the thermal and power performances of asemi-transparent photovoltaic fa?ade under different ventilation modes. Applied Energy 2015; 138: 572-583.(SCI)

[6] Jinqing Peng, Lin Lu, Hongxing Yang, Tao Ma. Validation of the Sandia model with indoor and outdoormeasurement for semi-transparent amorphous silicon PV module. Renewable Energy 2015; 80: 316-323. (SCI)

[7] Jinqing Peng, Lin Lu, Hongxing Yang, Jun Han. Investigation on the annual thermal performance of aphotovoltaic wall mounted on a multi-layer fa?ade. Applied Energy 2013;112:646-656. (SCI)

[8] Jinqing Peng, Lin Lu, Hongxing Yang. Review on life cycle assessment of energy payback and greenhouse gasemission of solar photovoltaic systems. Renewable and Sustainable Energy Reviews 2013; 19: 255-274. (SCI)

[9] Jinqing Peng, Lin Lu, Hongxing Yang. Investigation on the development potential of rooftop PV system inHong Kong and its environmental benefits. Renewable and Sustainable Energy Reviews 2013;27:149-162. (SCI)

[10] Jinqing Peng, Lin Lu, Hongxing Yang. An experimental study of the thermal performance of a novelphotovoltaic double-skin facade in Hong Kong. Solar Energy 2013; 97:293-304. (SCI)

[11] Jinqing Peng, Lin Lu, Hongxing Yang, KM Ho, Peter Law. Experimentally diagnosing the shading impact on thepower performance of a PV system in Hong Kong. World Congress on Sustainable Technologies (WCST), IEEEXplore, London, England, Date: DEC 09-12, 2013, Pages: 18-22. (SCI)

[12] Jinqing Peng, Yu Wu, Huajun Liu,et al. The Cryogenic System for ITER CC Superconducting Conductor TestFacility. Cryogenics 2011; 51(1):62-67. (SCI)

[13] K Wang, N Li, J Peng, X Wang, C Wang, M Wang. A highly efficient solution for thermal compensation ofground-coupled heat pump systems and waste heat recovery of kitchen exhaust air. Energy and Buildings2017; 138: 499-513. (SCI)

[14] K Wang, N Li, J Peng, Y He. Study on the Optimizing Operation of Exhaust Air Heat Recovery and SolarEnergy Combined Thermal Compensation System for Ground-Coupled Heat Pump. International Journal ofPhotoenergy 2017. (SCI)

[15] H Cui, N Li, X Wang, J Peng, Y Li, Z Wu. Optimization of reversibly used cooling tower with downwardspraying. Energy 2017; 127: 30-43. (SCI)

[16] X Wei, N Li, J Peng, J Cheng, J Hu, M Wang. Performance analyses of counter-flow closed wet cooling towersbased on a simplified calculation method. Energies 2017; 10 (3):282. (SCI)

[17] Xiaoqing Wei, Nianping Li, Jinqing Peng, Jianlin Cheng, Jinhua Hu and Meng Wang. Modeling and optimizationof a cooling tower-assisted heat pump system. Energies 2017. (SCI)

[18] Li Xue, Peng Jinqing*, Li Nianping, Wang Meng, Wang Chunlei. Study on the comprehensive energy efficiencyof different shading systems in hot summer and cold winter area. Building Science 2017. (In Chinese)

[19] Haijiao Cui, Nianping Li, Jinqing Peng, Jianlin Cheng, Shengbing Li. Study on the dynamic and thermalperformances of a reversibly used cooling tower with upward spraying. Energy 2016; 96: 268u2013277. (SCI)

[20] Haijiao Cui, Nianping Li, Jinqing Peng, Jianlin Cheng, Nan Zhang, Zhibin Wu. Modelling the particlescavenging and thermal efficiencies of a heat absorbing scrubber. Building and Environmental 2016;111:218-227. (SCI)

[21] Xiaoqing Wei, Nianping Li, Jinqing Peng, Jianlin Cheng, Lin Su, Jinhua Hu. Experimental investigation ofthe effects of different aqueous solutions on the energy efficiency of a heat pump integrated with aclosed heat-source-tower. Sustainability 2016; 8(410):1-14. (SCI)

[22] Man Sing Wong, Rui Zhu, Zhizhao Liu, Lin Lu, Jinqing Peng, Zhaoqin Tang, Chung Ho Lo, Wai KiChan. Estimation of Hong Kongu2019s solar energy potential using GIS and remote sensing technologies.Renewable Energy 2016; 99:325-335. (SCI)

[23] Weilong Zhang, Lin Lu, Jinqing Peng, Aotian Song. Comparison of the overall energy performance of semi-transparent photovoltaic windows and common energy-efficient windows in Hong Kong. Energy and Buildings2016; 128: 511-518. (SCI)

[24] Yuanda Cheng, Jinming Yang, Zhenyu Du, Jinqing Peng. Investigations on the Energy Efficiency of StratifiedAir Distribution Systems with Different Diffuser Layouts. Sustainability 2016; 8(8): 732. (SCI)

[25] Yi Chen, Tiantian Zhang, Hongxing Yang, Jinqing Peng. Study on energy and economic benefits of convertinga combined heating and power system to a tri-generation system for sewage treatment plants in subtropicalarea. Applied Thermal Engineering 2016; 94: 24u201339. (SCI)

[26] Yingdong He, Nianping Li, Wenjie Zhang, Jinqing Peng. Overall and local thermal sensation & comfort inair-conditioned dormitory with hot-humid climate. Building and Environment 2016, 101: 102u2013109. (SCI)

[27] Yingdong He · Nianping Li · Jinqing Peng · Wenjie Zhang · Yiru Li. Field study on adaptive comfort inair conditioned dormitories of university with hot-humid climate in summer. Energy and Buildings 2016,119: 1u201312. (SCI)

[28] Jun Han, Lin Lu, Jinqing Peng, Hongxing Yang. Performance of ventilated double-sided PV fa?ade comparedwith conventional clear glass fa?ade. Energy and Buildings 2013; 56: 204-209. (SCI)

[29] Tao Ma, Hongxing Yang, Lin Lu, Jinqing Peng. Pumped storage-based standalone photovoltaic power generationsystem: Modeling and techno-economic optimization. Applied Energy 2015; 137:649-659. (SCI)

[30] Tao Ma, Hongxing Yang, Lin Lu, Jinqing Peng. Optimal design of an autonomous solar-wind-pumped storagepower supply system. Applied Energy 2015; 160:728-736. (SCI)