学术专著：

[1] 季杰，裴刚，何伟、孙炜、李桂强、李晶. 《太阳能光伏光热综合利用研究》. 北京：科学出版社，2017. ISBN 978-7-03-053979-3.

[2] 季杰. 《基于平板集热的太阳能光热利用新技术研究及应用》. 北京：科学出版社，2018. ISBN 978-7-03-056084-1.

[3] 季杰，蔡靖雍，宋智莹，张涛. 《太阳能光伏–热泵–制冷–空调理论与应用》. 合肥：中国科学技术大学出版社，2025. ISBN 978-7-312-06319-0.

    

      研究项目：

[1] 国家重点研发计划项目，“建筑光伏系统仿真与设计软件”课题二“建筑光伏多物理场耦合机理与建模技术研究”，项目编号：2022YFB4201002，2022.12-2025.11，经费279万元，在研，主持；

[2] 国家自然科学基金重点项目，“太阳能光伏光热/催化清洁墙体构建机理及其对建筑能耗/健康环境的影响研究”，项目编号：52238004，2023.01-2027.12，经费268万元，在研，主持；

[3] 安徽省科技重大专项，“太阳能光伏综合利用的建筑构件与建筑源-荷匹配控制策略研究及示范”，项目编号：202203A07020021，2022.05-2025.05，经费150万元，已结题，主持；

[4] 国家自然科学基金面上项目，“三效光伏/光热墙对建筑能耗及室内热环境影响研究”，项目编号：51878636，2019.01-2022.12，经费60万元，已结题，主持；

[5] 安徽省重点研发计划，“太阳能光伏光热建筑新型综合利用研究与示范”，项目编号：210904a07020014，2019.01-2021.12，经费160万元，已结题，主持；

[6] GCRF国际合作网络项目，“为南亚、东南亚及东亚地区开发自供电住宅”，项目编号：GCRFNGR2\10395，2018.08-2019.08，经费2.5万英镑，已结题，主持；

[7] 东莞市重大科技项目，“新型太阳能/热泵耦合干燥系统关键技术研发及产业化”，2017.09-2019.12，经费2000万元，已结题，主持；

[8] 国家重点研发计划政府间国际科技创新合作重点专项，“新一代高效低成本太阳能光伏光热建筑一体化系统研发”，项目编号：2016YFE0124800，2017.04-2019.03，经费930万元，已结题，主持；

[9] 国家自然科学基金面上项目，“基于太阳能炕主动与被动复合供暖的建筑热环境研究”，项目编号：51378483，2014.01-2017.12，经费80万元，已结题，主持；

[10] 中国科学院对外合作项目，“高效低成本太阳能光伏光热建筑一体化系统关键技术问题研究”，项目编号：211134KYSB2016005，2016.01-2018.12，经费100万元，已结题，主持；

[11] 国家科技支撑计划项目，“提高太阳能平板集热器热效率关键技术研究与示范”，项目编号：2015BAA02B03，2015.04-2017.12，经费94.5万元，已结题，主持；

[12] 东莞市引进创新科研团队项目，“太阳能与建筑一体化技术创新团队”，项目编号：201467101008，2014.07-2019.06，经费2000万元，已结题，主持；

[13] 国家高技术研究发展计划（863计划）项目，“聚光砷化镓发电供热系统技术研究与示范”，项目编号：2013AA050403，2013.01-2015.01，经费248万元，已结题，主持；

[14] 欧盟第七框架计划人员交流项目，“可持续建筑能源系统与改造研发”，项目编号：KD1301220013，2013.01-2015.01，经费45万元，已结题，主持；

[15] 广东省教育部产学研结合项目，“新型太阳能干燥技术研究及应用”，项目编号：2012B091000019，2012.05-2014.04，经费800万元，已结题，主持；

[16] 中国科学院知识创新工程重要方向项目，“聚光砷化镓发电供热系统研究”，项目编号：CX2090130023，2011.01-2013.12，经费240万元，已结题，主持；

[17] 国家自然科学基金面上项目，“光伏-太阳能热泵/热管复合系统关键问题研究”，项目编号：50978241，2010.01-2012.12，经费36万元，已结题，主持；

[18] 国家自然科学基金面上项目，“新型PV-Trombe墙综合性能研究”，项目编号：50876098，2009.01-2011.12，经费36万元，已结题，主持；

[19] 中国科学院知识创新工程重要方向项目，“太阳能建筑应用新技术研究与集成示范”，项目编号：KGCX2-YW-378，2009.7-2012.6，经费550万元，已结题，主持；

[20] 广东省重大科技专项计划，“与建筑结合的太阳能光伏光热一体化技术及示范工程”，项目编号：2009A080302001，2009.06-2011.05，经费13000万元，已结题，主持；

[21] 粤港关键领域重点突破项目，“光伏光热综合利用关键技术研究与建筑一体化产品开发”，项目编号：2009205200023，2008.12-2011.04，经费900万元，已结题，主持；

[22] “十一五”国家科技支撑计划项目，“建筑一体化太阳能集热模块研发”，项目编号：2006BAA04B04，2007.1-2010.12，经费200万元，已结题，主持；

[23] 东莞市经济和信息化局项目，“功能型太阳能集热器”，2007.2-2008.11，经费1730万元，已结题，主持；

[24] 行业技术创新平台项目，“东莞市太阳能技术研究院”，东科信〔2007〕70号，2007.1-2009.12，经费2000万元，已结题，主持；

[25] 国家高技术研究发展计划（863计划）项目，“光伏光热建筑一体化系统关键问题研究”，2006.12-2008.12，经费100万元，已结题，主持；

[26] 2006年度关键领域重点突破项目，“高效承压分体式建筑一体化太阳能热水系统”，项目编号：2006A15301001，2006.3-2008.11，经费1010万元，已结题，主持；

[27] 粤港关键领域重点突破项目，“多功能太阳能热泵系统”，项目编号：2006168401，2006.2-2008.12，经费750万元，已结题，主持；

[28] 国家自然科学基金面上项目，“多功能热泵系统优化设计及流动与传热特性研究”，项目编号：50478023，2005.01-2007.12，经费24万元，已结题，主持。

论文：

 @ 2025

 [1] X. Tian, J. Wang, G. Lu, SA Khan, J. Ji^*, D. Lu, C. Lian, H. Shang, Coupled theoretical modelling for the photoelectric performance by the concave-bent flexible PV module. Renewable Energy 238 (2025).

[2] H. Xie, H. Jia, J. Ji^*, Y. Qian, H. Meng, J. Li, Y. Mu, Development and experimental validation of a thermal inactivation model for airborne bacteria and its application in Trombe wall systems. Building and Environment 268 (2025).

[3] X. Tian, J. Wang, J. Ji^*, G. Lu, The performance investigation of the flexible photovoltaic cell under non-uniform distributed illumination. Renewable Energy 240 (2025).

[4] X. Tian, J. Wang, G. Lu, M. Jiang, SA Khan, J. Ji^*, Optical-electrical-thermal model of flexible non-planar photovoltaic modules: Decoupling, validation, and photoelectric performance analysis. Energy 318 (2025).

[5] Y. Tang, C. Zhang, J. Ji^*, H. Xie, Semi-transparent BIPV/T System's synergistic operation with air treatment for electricity generation and complementary cold-heat utilization: Assessment of energy and daylight performance. Applied Energy 383 (2025).

[6] X. Tian, Y. Lu, J. Wang, G. Lu, M Jiang, SA Khan, J. Ji^*, C. Luo, Modeling and analysis of flexible curved PV cells under uneven irradiation considering varied parameters. Energy, 136655 (2025).

[7] H. Meng, J. Ji^*, H. Xie, H. Jia, Y. Qian, J. Li, Y. Mu, Experimental study on the purification performance of sterilization-Trombe walls with and without fins in the heating season. Building and Environment 277 (2025).

[8] J. Wang, X. Tian, M. Jiang, G. Lu, Q. Fang, J. Ji^*, C. Luo, Comparison of the photoelectric power by the flexible nonplanar PV modules in different layout and design. Applied Energy 388 (2025).

[9] H. Xie, Z. Song, Y. Tang, J. Ji^*, Performance analysis of a novel CPV/T system with curved CIGS modules: Comparison with traditional flat modules. Applied Energy 389 (2025).

[10] Y. Tang, Z. Song, C. Zhang, X. Wang, J. Ji^*, Coupling ventilated semi-transparent photovoltaic windows with air-conditioning systems: electrical, thermal, and daylight performance across diverse cooling-season climates in China for varying window-to-wall ratios. Energy, 137167 (2025).

[11] Y. Tang, J. Ji^*, C. Zhang, X. Tian, Electrical-thermal-daylight analysis of an innovative semi-transparent photovoltaic curtain wall system integrated with a primary return air system in the heating season. Energy, 137655 (2025).

[12] Y. Qian, J. Ji^*, H. Xie, H. Jia, H. Meng, J. Li, Y. Mu, Research on dynamic operation strategy of heating, power generation, and air purification-type BIPVT system combined with machine learning. Energy, 137620 (2025).

[13] Z. Song, Y. Zhang, Y. Tang, J. Ji^*, Experimental and theoretical analysis of a dual-source heat pump system with PVT assistance and adaptive combined throttling regulation for summer applications. Applied Energy 397 (2025).

[14] Y. Qian, J. Ji^*, H. Xie, H. Jia, H. Meng, J. Li, Y. Mu, Bi-level rolling optimal control method for air-purifying building-integrated photovoltaic thermal systems integrated with virtual energy storage. Energy Conversion and Management 345 (2025).

       @ 2024

[15] Y. Tang, J. Ji^*, C. Zhang, W. Ke, H. Xie, An advanced exhausting airflow photovoltaic curtain wall system coupled with an air source heat pump for outdoor air treatment: Energy-saving performance assessment. Energy Conversion and Management 299 (2024).

[16] C. Wang, J. Ji^*, H. Yang, Day-ahead schedule optimization of household appliances for demand flexibility: Case study on PV/T powered buildings. Energy 289 (2024)

[17] Z. Song, Y. Zhang, J. Ji^*, W. He, Z. Hu, Q. Xuan, Yearly photoelectric/thermal and economic performance comparison between CPV and FPV dual-source heat pump systems in different regions. Energy 289 (2024).

[18] C. Zhang, J. Ji^*, C. Wang, W. Ke, Annual analysis and comparison of the comprehensive performance of a CdTe PV ventilated window integrated with vacuum glazing in different climate regions. Renewable Energy 223 (2024).

[19] C. Zhang, J. Ji^*, Y. Tang, W. Ke, Overall performance investigation of a CdTe double-skin ventilated facade integrated with a thermal catalytic air-type PV/T in heating and cooling seasons. Energy 292 (2024).

[20] C. Wang, J. Ji^*, Z. Song, W. Ke, Performance analysis and capacity configuration of building energy system integrated with PV/T technology under different operation strategies. Energy 293 (2024).

[21] W. Ke, J. Ji^*, C. Zhang, Z. Song, C. Wang, H. Xie, X. Tian, Performance analysis of a novel hybrid CdTe-PCM multi-layer ventilated window system for building application: An experimental and numerical study. Energy 293 (2024).

[22] T. Xia, J. Ji^*, W. Ke, Case study of variable speed photovoltaic direct-driven ice-storage air conditioning system in Wuhu. Applied Thermal Engineering 248 (2024).

[23] SA Khan, J. Ji^*, Performance prediction of hybrid system using loop heat pipe-photovoltaic thermal and proton exchange membrane water electrolyzer. Energy Conversion and Management 313 (2024).

[24] C. Zhang, J. Ji^*, W. Ke, Y. Tang, Comprehensive performance investigation of a novel thermal catalytic semi-transparent PV double-skin ventilated window integrated with CdTe cells. Energy 300 (2024).

[25] N. Li, X. Cao, G. Zhang, Y. Wang, X. Hu, J. Liu, B. Yu, J. Ji^*, X. Liu, The experimental and numerical study on a novel all-day PCM thermal-catalytic purified Trombe wall in winter. Energy 299 (2024).

[26] Z. Song, Y. Zhang, J. Ji^*, C. Wang, Analysis of night behavior and negative running for PVT system. Energy 301 (2024).

[27] X. Tian, J. Wang, W. Ke, J. Ji^*, Performance assessment of the curved-type multi-channel PV roof for space-heating and electricity generation in winter. Renewable Energy 231 (2024).

[28] Y. Qian, J. Ji^*, H. Xie, H. Jia, Y. Tang, Y. Mu, Performance prediction of a novel disinfection-enhanced type Trombe wall with transverse fins. Energy 302 (2024).

[29] H. Xie, H. Jia, J. Ji^*, Y. Qian, H. Meng, J. Li, Y. Mu, Performance analysis of a novel air filtration and sterilization PV-Trombe wall. Building and Environment 265 (2024).

[30] Y. Qian, J. Ji^*, H. Xie, H. Jia, Y. Tang, Y. Mu, Performance comparison of multi-functional photovoltaic-Trombe wall with and without fins and their impacts on the removal of indoor infectious bioaerosols. Solar Energy 282 (2024).

[31] Y. Qian, J. Ji^*, H. Xie, H. Jia, Y. Tang, Y. Mu, Performance investigation of multi-functional series-connected building-integrated photovoltaic/thermal system and analysis of its multi-objective optimization design strategy. Building and Environment 266 (2024).

       @ 2023

[32] X. Tian, J. Wang, S. Yuan, J. Ji^*, W. Ke, C. Wang, Investigation on the electrical performance of a curved PV roof integrated with CIGS cells for traditional Chinese houses, Energy 263 (2023).

[33] Z. Song, J. Ji^*, Y. Zhang, J. Cai, Z. Li, Y. Li, Mathematical and experimental investigation about the dual-source heat pump integrating low concentrated photovoltaic and finned-tube exchanger, Energy 263 (2023).

[34] X. Wen, J. Ji^*, Z. Li, Evaluation of the phase change material in regulating all-day electrical performance in the PV-MCHP-TE system in winter, Energy 263 (2023).

[35] J. Wang, X. Tian, J. Ji^*, H. Xie, S. Yuan, A comparative study on curved air-based photovoltaic/thermal roofs with and without glazing, Applied Thermal Engineering 219 (2023).

[36] T. Yao, J. Ji^*, Z. Li, X. Wen, Comparison study on two LT-PV/T systems with different tubular condensers, Applied Thermal Engineering 219 (2023).

[37] X. Wen, J. Ji^*, Z. Li, Z. Song, T. Yao, Performance characterization of a PV/T system employing micro-channel heat pipes and thermoelectric generators: An experimental and numerical study, Energy 264 (2023).

[38] X. Tian, J. Wang, C. Wang, J. Ji^*, Comparison analysis of the glazed and unglazed curved water-based PV/T roofs in the non-heating season, Renewable Energy 205 (2023).

[39] W. Ke, J. Ji^*, C. Zhang, H. Xie, Y. Tang, C. Wang, Effects of the PCM layer position on the comprehensive performance of a built-middle PV-Trombe wall system for building application in the heating season, Energy 267 (2023).

[40] Z. Song, J. Ji^*, Y. Zhang, J. Cai, Performance improvement and comparison analysis of the hybrid concentrated dual-source heat pump system regarding proper throttling process, Renewable Energy 206 (2023).

[41] N. Li, T. Gu, H. Xie, J. Ji^*, X. Liu, B. Yu, The kinetic and preliminary performance study on a novel solar photo-thermal catalytic hybrid Trombe-wall, Energy 269 (2023)

[42] MM. Uddin, J. Ji^*, C. Wang, C. Zhang, Building energy conservation potentials of semi-transparent CdTe integrated photovoltaic window systems in Bangladesh context, Renewable Energy 207 (2023).

[43] Z. Song, J. Ji^*, Y. Zhang, Y. Li, J. Li, X. Zhao, Annual analysis of the photovoltaic direct-expansion heat pump assisted by double condensing equipment for secondary power generation, Renewable Energy 209 (2023).

[44] Z. Song, J. Ji^*, Y. Zhang, J. Cai, Numerical exploration and experimental validation of a tri-generation heat pump system in cooling mode. Energy 273 (2023).

[45] N. Li, M. Fan, T. Gu, Y. Li, B. Yu, J. Ji^*, The experimental and theoretical analysis on a Trombe wall with photo-thermal composite catalytic purification blinds. Building and Environment 238 (2023).

[46] X. Tian, J. Wang, J. Ji^*, C. Wang, W. Ke, S. Yuan, A multifunctional curved CIGS photovoltaic/thermal roof system: A numerical and experimental investigation. Energy 273 (2023).

[47] N. Li, T. Gu, B. Yu, J. Ji^*, X. Liu, A ventilated wall integrated with heating/catalytic blinds: Catalyst, system design and performance study. Renewable Energy 212 (2023).

[48] X. Wen, J. Ji^*, Z. Li, Z. Song, Performance assessment of the hybrid PV-MCHP-TE system integrated with PCM in all-day operation: a preliminary numerical investigation. Energy 278 (2023).

[49] X. Tian, J. Wang, J. Ji^*, Performance prediction of a curved-type solar balcony combined with the flexible PV/T system during the non-heating season. Energy Conversion and Management 292 (2023).

[50] N. Li, T. Gu, Y. Li, X. Liu, J Ji, B. Yu, The performance investigation on a multifunctional wall with photo-thermal catalytic blinds for heating, shading and formaldehyde removal. Energy 279 (2023).

[51] C. Wang, H. Yang, J Ji, Experimental and numerical study of an energy-efficient building fenestration system with seasonal adaptability. Building and Environment 244 (2023).

[52] Y. Zhang, J Ji, Z. Song, W. Ke, H. Xie, Performance prediction on a novel dual-mode heat pump with a hybrid photovoltaic/micro-channel heat pipe/fin heat exchanger. Energy Conversion and Management 293 (2023).

[53] Y. Tang, J Ji, H. Xie, C. Zhang, X. Tian, Single-and double-inlet PV curtain wall systems using novel heat recovery technique for PV cooling, fresh and supply air handling: Design and performance assessment. Energy 282 (2023).

[54] W. Ke, J Ji, C. Zhang, H. Xie, Field experimental test and performance analysis of a novel hybrid CdTe PV glass module integrated with phase change materials. Renewable Energy 217 (2023).

[55] C. Wang, J Ji, Comprehensive performance analysis of a rural building integrated PV/T wall in hot summer and cold winter region. Energy 282 (2023).

[56] W. Ke, J Ji, C. Zhang, H. Xie, Modelling analysis and performance evaluation of a novel hybrid CdTe-PCM PV glass module for building envelope application. Energy 284 (2023).

[57] W. Ke, J Ji, C. Zhang, C. Wang, H. Xie, X. Tian, A seasonal experimental study on a novel CdTe based multi-layer PV ventilated window system integrated with PCM under different operating modes. Energy 285 (2023).

[58] X. Wen, J Ji, Z. Li, T. Yao, Proposing of a novel PV/T module in series with a ST+ TE module to pursue a round-the-clock continuous energy output. Energy 285 (2023).

[59] C. Wang, H. Yang, J Ji, Investigation on overall energy performance of a novel multi-functional PV/T window. Applied Energy 352 (2023).

       @ 2022

[60] X. Wen, J. Ji^*, Z. Li, Z. Song, Performance analysis of a concentrated system with series photovoltaic/thermal module and solar thermal collector integrated with PCM and TEG, Energy 249 (2022).

[61] W. Ke, J. Ji^*, C. Wang, C. Zhang, H. Xie, Y. Tang, Y. Lin, Comparative analysis on the electrical and thermal performance of two CdTe multi-layer ventilated windows with and without a middle PCM layer: A preliminary numerical study, Renewable Energy 189 (2022) 1306-1323.

[62] C. Zhang, J. Ji^*, C. Wang, W. Ke, H. Xie, B. Yu, Experimental and numerical studies on the thermal and electrical performance of a CdTe ventilated window integrated with vacuum glazing, Energy 244 (2022).

[63] C. Wang, J. Ji^*, B. Yu, C. Zhang, W. Ke, J. Wang, Comprehensive investigation on the luminous and energy-saving performance of the double-skin ventilated window integrated with CdTe cells, Energy 238 (2022).

[64] C. Wang, J. Ji^*, B. Yu, L. Xu, Q. Wang, X. Tian, Investigation on the operation strategy of a hybrid BIPV/T façade in plateau areas: An adaptive regulation method based on artificial neural network, Energy 239 (2022).

[65] Y. Tang, J. Ji^*, C. Wang, H. Xie, W. Ke, Performance prediction of a novel double-glazing PV curtain wall system combined with an air handling unit using exhaust cooling and heat recovery technology, Energy Conversion and Management 265 (2022).

[66] J. Cai, H. Zhou, L. Xu, Z. Shi, T. Zhang, J. Ji^*, Energy and exergy analysis of a novel solar-air composite source multi-functional heat pump, Renewable Energy 185 (2022) 32-46.

[67] M.M. Uddin, C. Wang, C. Zhang, J. Ji^*, Investigating the energy-saving performance of a CdTe-based semi-transparent photovoltaic combined hybrid vacuum glazing window system, Energy 253 (2022).

[68] Z. Song, J. Ji^*, Y. Zhang, J. Cai, Z. Li, Comparative study on dual-source direct-expansion heat pumps based on different composite concentrating photovoltaic/fin evaporators, Applied Energy 306 (2022).

[69] Z. Song, J. Ji^*, Y. Zhang, J. Cai, Z. Li, Experimental and numerical investigation on a photovoltaic heat pump with two condensers: A micro-channel heat pipe/thermoelectric generator condenser and a submerged coil condenser, Energy 242 (2022).

[70] J. Wang, X. Tian, J. Ji^*, C. Zhang, W. Ke, S. Yuan, Field experimental investigation of a multifunctional curved CIGS photovoltaic/thermal (PV/T) roof system for traditional Chinese buildings, Energy Conversion and Management 271 (2022).

[71] C. Wang, J. Ji^*, C. Zhang, W. Ke, Y. Tang, X. Tian, Experimental and numerical investigation of a multi-functional photovoltaic/thermal wall: A practical application in the civil building, Energy 241 (2022).

[72] X. Wen, J. Ji^*, Z. Song, Z. Li, Performance prediction of the concentrated hybrid power/thermal system incorporating thermoelectric generators, Applied Thermal Engineering 212 (2022).

[73] Z. Li, J. Ji^*, J. Li, X. Zhao, Y. Cui, Z. Song, X. Wen, T. Yao, Experimental investigation and annual performance mathematical-prediction on a novel LT-PV/T system using spiral-descent concentric copper tube heat exchanger as the condenser for large-scale application, Renewable Energy 187 (2022) 257-270.

[74] Z. Song, J. Ji^*, Y. Zhang, J. Cai, Z. Li, Research on the multifunction concentrated solar-air heat pump system, Renewable Energy 198 (2022) 679-694.

[75] X. Tian, J. Wang, J. Ji^*, T. Xia, Comparative performance analysis of the flexible flat/curved PV modules with changing inclination angles, Energy Conversion and Management 274 (2022).

[76] Z. Li, J. Ji^*, X. Zhao, G. Li, Y. Cui, Z. Song, T. Yao, Parametric analysis on G-PV/T collector: Performance optimization and energy trade-off among two critical structures under various outside conditions, Energy 255 (2022).

[77] J. Wang, B. Yu, C. Wang, J. Ji^*, New advancements of building integrated photovoltaic/thermal system(BIPV/T), Taiyangneng Xuebao/Acta Energiae Solaris Sinica 43(6) (2022) 72-78.

[78] Y. Tang, J. Ji^*, C. Wang, H. Xie, W. Ke, Combining photovoltaic double-glazing curtain wall cooling and supply air reheating of an air-conditioning system: Energy-saving potential investigation, Energy Conversion and Management 269 (2022).

[79] Z. Song, J. Ji^*, Z. Li, Performance of a heat pump system in combination with thermoelectric generators, Energy 239 (2022).

       @ 2021

[80] C. Wang, J. Ji^*, M.M. Uddin, B. Yu, Z. Song, The study of a double-skin ventilated window integrated with CdTe cells in a rural building, Energy 215 (2021).

[81] X. Wen, J. Ji^*, Z. Song, Z. Li, H. Xie, J. Wang, Comparison analysis of two different concentrated photovoltaic/thermal-TEG hybrid systems, Energy Conversion and Management 234 (2021).

[82] L. Xu, J. Ji^*, J. Cai, W. Ke, X. Tian, B. Yu, J. Wang, A hybrid PV thermal (water or air) wall system integrated with double air channel and phase change material: A continuous full-day seasonal experimental research, Renewable Energy 173 (2021) 596-613.

[83] C. Wang, M.M. Uddin, J. Ji^*, B. Yu, J. Wang, The performance analysis of a double-skin ventilated window integrated with CdTe cells in typical climate regions, Energy and Buildings 241 (2021).

[84] B. Yu, N. Li, H. Xie, J. Ji^*, The performance analysis on a novel purification-cleaning trombe wall based on solar thermal sterilization and thermal catalytic principles, Energy 225 (2021).

[85] W. Ke, J. Ji^*, L. Xu, B. Yu, X. Tian, J. Wang, Numerical study and experimental validation of a multi-functional dual-air-channel solar wall system with PCM, Energy 227 (2021).

[86] X. Wen, J. Ji^*, Z. Song, Performance comparison of two micro-channel heat pipe LFPV/T systems plus thermoelectric generators with and without aerogel glazing, Energy 229 (2021).

[87] H. Xie, B. Yu, J. Wang, J. Ji^*, A novel disinfected Trombe wall for space heating and virus inactivation: Concept and performance investigation, Applied Energy 291 (2021).

[88] C. Wang, N. Li, B. Yu, M.M. Uddin, J. Ji^*, A novel solar spectrum-splitting utilization photocatalytic CdTe double-skin façade: Concept, design and performance investigation, Building and Environment 195 (2021).

[89] Z. Song, J. Ji^*, J. Cai, Z. Li, K. Han, Performance analyses on a novel heat pump with a hybrid condenser combined with flat plate micro-channel heat pipe plus TEG and FPV evaporator, Energy Conversion and Management 228 (2021).

[90] Z. Li, J. Ji^*, W. Yuan, B. Zhao, F. Zhou, M. Muin Uddin, X. Ren, B. Yu, Z. Song, Experimental & numerical investigation and optimization on a novel flat-plate PV/T system using CdfTe thin-film solar modules of sandwich structure, Solar Energy 223 (2021) 261-277.

[91] B. Yu, N. Li, J. Ji^*, C. Wang, Thermal, electrical and purification performance of a novel thermal-catalytic CdTe double-layer breathing window in winter, Renewable Energy 167 (2021) 313-332.

[92] K. Han, J. Ji^*, J. Cai, Y. Gao, F. Zhang, M.M. Uddin, Z. Song, Experimental and numerical investigation on a novel photovoltaic direct-driven ice storage air-conditioning system, Renewable Energy 172 (2021) 514-528.

[93] Z. Li, J. Ji^*, F. Zhang, B. Zhao, R. Xu, Y. Cui, Z. Song, X. Wen, Investigation on the all-day electrical/thermal and antifreeze performance of a new vacuum double-glazing PV/T collector in typical climates — Compared with single-glazing PV/T, Energy 235 (2021).

[94] Y. Gao, J. Ji^*, K. Han, F. Zhang, Experimental and numerical study of a PV/T direct-driven refrigeration/heating system, Energy 230 (2021).

[95] W. Ke, J. Ji^*, L. Xu, H. Xie, C. Wang, B. Yu, Annual performance analysis of a dual-air-channel solar wall system with phase change material in different climate regions of China, Energy 235 (2021).

[96] Y. Gao, J. Ji^*, K. Han, F. Zhang, Comparative analysis on performance of PV direct-driven refrigeration system under two control methods, International Journal of Refrigeration 127 (2021) 21-33.

[97] Z. Song, J. Ji^*, Z. Li, Comparison analyses of three photovoltaic solar-assisted heat pumps based on different concentrators, Energy and Buildings 251 (2021).

       @ 2020

[98] B. Yu, X. Liu, N. Li, S. Liu, J. Ji^*, The performance analysis of a purified PV/T-Trombe wall based on thermal catalytic oxidation process in winter, Energy Conversion and Management 203 (2020).

[99] Z. Li, J. Ji^*, W. Yuan, Z. Song, X. Ren, M.M. Uddin, K. Luo, X. Zhao, Experimental and numerical investigations on the performance of a G-PV/T system comparing with A-PV/T system, Energy 194 (2020).

[100] L. Xu, K. Luo, J. Ji^*, B. Yu, Z. Li, S. Huang, Study of a hybrid BIPV/T solar wall system, Energy 193 (2020).

[101] F. Zhang, J. Cai, J. Ji^*, K. Han, W. Ke, Experimental investigation on the heating and cooling performance of a solar air composite heat source heat pump, Renewable Energy 161 (2020) 221-229.

[102] Z. Song, J. Ji^*, J. Cai, Z. Li, B. Yu, The performance comparison of the direct-expansion solar assisted heat pumps with three different PV evaporators, Energy Conversion and Management 213 (2020).

[103] P. Su, J. Ji^*, J. Cai, Y. Gao, K. Han, Dynamic simulation and experimental study of a variable speed photovoltaic DC refrigerator, Renewable Energy 152 (2020) 155-164.

[104] L. Xu, J. Ji^*, K. Luo, Z. Li, R. Xu, S. Huang, Annual analysis of a multi-functional BIPV/T solar wall system in typical cities of China, Energy 197 (2020).

[105] K. Luo, J. Ji^*, L. Xu, Z. Li, Seasonal experimental study of a hybrid photovoltaic-water/air solar wall system, Applied Thermal Engineering 169 (2020).

[106] Z. Song, J. Ji^*, J. Cai, Z. Li, Y. Gao, Performance prediction on a novel solar assisted heat pump with hybrid Fresnel PV plus TEG evaporator, Energy Conversion and Management 210 (2020).

[107] J. Cai, F. Zhang, J. Ji^*, Comparative analysis of solar-air dual source heat pump system with different heat source configurations, Renewable Energy 150 (2020) 191-203.

[108] Y. Gao, J. Ji^*, Z. Zhao, Z. Guo, P. Su, Simulation of energy consumption and economic comparison between solar PV cooling system and other cooling systems, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 41(5) (2020) 336-344.

       @ 2019

[109] M. Modjinou, J. Ji*, W. Yuan, F. Zhou, S. Holliday, A. Waqas, X. Zhao, Performance comparison of encapsulated PCM PV/T, microchannel heat pipe PV/T and conventional PV/T systems, Energy 166 (2019) 1249-1266.

[110] J. Cai, Z. Li, J. Ji*, F. Zhou, Performance analysis of a novel air source hybrid solar assisted heat pump, Renewable Energy 139 (2019) 1133-1145.

[111] F. Zhou, J. Ji*, W. Yuan, X. Zhao, S. Huang, Study on the PCM flat-plate solar collector system with antifreeze characteristics, International Journal of Heat and Mass Transfer 129 (2019) 357-366.

[112] Y. Lin, J. Ji*, F. Zhou, Y. Ma, K. Luo, X. Lu, Experimental and numerical study on the performance of a built-middle PV Trombe wall system, Energy and Buildings 200 (2019) 47-57.

[113] Y. Lin, J. Ji*, X. Lu, K. Luo, F. Zhou, Y. Ma, Thermal and electrical behavior of built-middle photovoltaic integrated Trombe wall: Experimental and numerical study, Energy 189 (2019).

[114] B. Yu, N. Li, J. Ji*, Performance analysis of a purified Trombe wall with ventilation blinds based on photo-thermal driven purification, Applied Energy 255 (2019).

[115] D. Zhao, J. Ji*, H. Yu, X. Zhao, A study on thermal characteristic and sleeping comfort of a hybrid solar heating system applied in cold rural areas, Energy and Buildings 182 (2019) 242-250.

[116] F. Zhou, J. Ji*, W. Yuan, M. Modjinou, X. Zhao, S. Huang, Experimental study and performance prediction of the PCM-antifreeze solar thermal system under cold weather conditions, Applied Thermal Engineering 146 (2019) 526-539.

[117] Y. Ma, J. Ji^*, W. Sun, Z. Zhao, G. Xie, Comparative study of two types of PV-Trombe wall on thermal and photovoltaic performance, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 40(8) (2019)   2323-2329.

       @ 2018

[118] W. Wei, J. Ji^*, C. Luo, Y. Wang, C. Guo, Experimental study of a combined solar Kang system operating mode, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 38(3) (2018) 806-812.

[119] W. Yuan, J. Ji^*, M. Modjinou, F. Zhou, Z. Li, Z. Song, S. Huang, X. Zhao, Numerical simulation and experimental validation of the solar photovoltaic/thermal system with phase change material, Applied Energy 232 (2018) 715-727.

[120] W. Yuan, J. Ji^*, Z. Li, F. Zhou, X. Ren, X. Zhao, S. Liu, Comparison study of the performance of two kinds of photovoltaic/thermal(PV/T) systems and a PV module at high ambient temperature, Energy 148 (2018) 1153-1161.

[121] F. Zhou, J. Ji^*, W. Yuan, J. Cai, W. Tang, M. Modjinou, Numerical study and experimental validation on the optimization of the large size solar collector, Applied Thermal Engineering 133 (2018) 8-20.

[122] Y. Gao, J. Ji^*, Z. Guo, P. Su, Comparison of the solar PV cooling system and other cooling systems, International Journal of Low-Carbon Technologies 13(4) (2018) 353-363.

[123] J. Qin, J. Ji^*, W. Huang, H. Qin, M. Modjinou, G. Li, Experimental study of a novel direct-expansion variable frequency finned solar/air-assisted heat pump water heater, International Journal of Photoenergy 2018 (2018).

[124] Z. Jin, J. Ji^*, N. Xu, W. Sun, J. Li, W. Huang, Experimental Study of a Point-Focus Fresenel High Concentrator Photovoltaic/Thermal System, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 39(1) (2018) 69-75.

[125] H. Zheng, J. Ji^*, C. Guo, D. Zhao, W. Wei, Experimental study ofactive and passive compound heating house based on solar kang, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 39(4) (2018) 940-945.

[126] F. Zhou, J. Ji^*, W. Yuan, Numerical study ofantifreeze performance of flat-plate solar collector, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 39(2) (2018) 428-434.

       @ 2017

[127] C. Luo^*, L. Xu, J. Ji*, M. Liao, D. Sun, Experimental study of a modified solar phase change material storage wall system, Energy 128 (2017) 224-231.

[128] M. Modjinou, J. Ji^*, J. Li, W. Yuan, F. Zhou, A numerical and experimental study of micro-channel heat pipe solar photovoltaics thermal system, Applied Energy 206 (2017) 708-722.

[129] J. Cai, J. Ji^*, Y. Wang, W. Huang, Operation characteristics of a novel dual source multi-functional heat pump system under various working modes, Applied Energy 194 (2017) 236-246.

[130] D. Zhao, J. Ji^*, H. Yu, W. Wei, H. Zheng, Numerical and experimental study of a combined solar Chinese kang and solar air heating system based on Qinghai demonstration building, Energy and Buildings 143 (2017) 61-70.

[131] F. Zhou, J. Ji^*, J. Cai, B. Yu, Experimental and numerical study of the freezing process of flat-plate solar collector, Applied Thermal Engineering 118 (2017) 773-784.

[132] C. Guo, J. Ji^*, W. Sun, Y. Wang, Performance Study of Multi-function Solar PV/T collector, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 38(2) (2017) 372-377.

[133] W. Huang, J. Ji^*, M. Modjinou, J. Qin, Effects of Ambient Parameters on the Performance of a Direct-Expansion Solar-Assisted Heat Pump with Bare Plate Evaporators for Space Heating, International Journal of Photoenergy 2017 (2017).

       @ 2016

[134] J. Cai, J. Ji^*, Y. Wang, W. Huang, Numerical simulation and experimental validation of indirect expansion solar-assisted multi-functional heat pump, Renewable Energy 93 (2016) 280-290.

[135] N. Xu, J. Ji^*, W. Sun, W. Huang, J. Li, Z. Jin, Numerical simulation and experimental validation of a high concentration photovoltaic/thermal module based on point-focus Fresnel lens, Applied Energy 168 (2016) 269-281.

[136] W. Huang, J. Ji^*, N. Xu, G. Li, Frosting characteristics and heating performance of a direct-expansion solar-assisted heat pump for space heating under frosting conditions, Applied Energy 171 (2016) 656-666.

[137] Y. Wang, J. Ji^*, W. Sun, W. Yuan, J. Cai, C. Guo, W. He, Experiment and simulation study on the optimization of the PV direct-coupled solar water heating system, Energy 100 (2016) 154-166.

[138] J. Ji^*, Z. Yu, W. Sun, H. Chen, J. Cai, Study of multiple solar technologies integrated with building, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 37(2) (2016) 489-493.

[139] J. Ji^*, F. Zhao, W. Huang, J. Cai, Contrastive research of heating performance of direct expansion solar assisted heat PUMP system, Taiyangneng Xuebao/Acta Energiae Solaris Sinica 37(10) (2016) 2578-2584.

       @ 2015

[140] C. Guo, J. Ji^*, W. Sun, J. Ma, W. He, Y. Wang, Numerical simulation and experimental validation of tri-functional photovoltaic/thermal solar collector, Energy 87 (2015) 470-480.

[141] N. Xu, J. Ji^*, W. Sun, L. Han, H. Chen, Z. Jin, Outdoor performance analysis of a 1090× point-focus Fresnel high concentrator photovoltaic/thermal system with triple-junction solar cells, Energy Conversion and Management 100 (2015) 191-200.

[142] J. Jie^*, C. Jingyong, H. Wenzhu, F. Yan, Experimental study on the performance of solar-assisted multi-functional heat pump based on enthalpy difference lab withsolar simulator, Renewable Energy 75 (2015) 381-388.

[143] W. Wei, J. Ji^*, T.T. Chow, W. He, H. Chen, C. Guo, H. Yu, Experimental study of a combined system of solar Kang and solar air collector, Energy Conversion and Management 103 (2015) 752-761.

[144] N. Xu, J. Ji^*, W. Sun, W. Huang, Z. Jin, Electrical and Thermal Performance Analysis for a Highly Concentrating Photovoltaic/Thermal System, International Journal of Photoenergy 2015 (2015).

       @ 2014

[145] Z. Yu, J. Ji^*, W. Sun, W. Wang, G. Li, J. Cai, H. Chen, Experiment and prediction of hybrid solar air heating system applied on a solar demonstration building, Energy and Buildings 78 (2014) 59-65.

[146] H. Chen, J. Ji^*, Y. Wang, W. Sun, G. Pei, Z. Yu, Thermal analysis of a high concentration photovoltaic/thermal system, Solar Energy 107 (2014) 372-379.

[147] J. Ji^*, Y. Wang, W. Yuan, W. Sun, W. He, C. Guo, Experimental comparison of two PV direct-coupled solar water heating systems with the traditional system, Applied Energy 136 (2014) 110-118.

       [148] J. Ji^*, Z. Yu, W. Sun, W. Wang, Approach of a solar building integrated with multiple novel solar technologies, International Journal of Low-Carbon Technologies 9(2) (2014) 109-117.

     

  专利：

[1]     季杰；张成燕；汤雅云；宋智莹.串联式光伏通风幕墙-PV/T 空气集热器耦合系统及工作方法.中国发明专利，申请号：CN202411256148.1，公开号：CN118980185A，2024.

[2]     季杰；田忻怡.扫掠曲面型柔性光伏组件发电量计算方法.中国发明专利，申请号：CN202410945007.4，公开号：CN118841971A，2024.

[3]     汤雅云；季杰；张成燕；田忻怡；宋智莹.一种与空调系统送风再热结合的半透明光伏通风幕墙系统.中国发明专利，申请号：CN202410791517.0，公开号：CN118532768A，2024.

[4]     李念思；季杰；柯伟；谢浩.用于室内除湿及除气态污染物的百叶型玻璃幕墙及使用方法.中国发明专利，申请号：CN202210510407.3，公开号：CN114876107A，2022.

[5]     李晶；裴刚；季杰；高大统.采用联苯联苯醚混合物循环工质的塔式太阳能热发电系统.中国发明专利，授权号：CN114439714B，2024.

[6]     季杰；王君；田忻怡；王矗垚.一种具有发电供热通风换气多功能的黛瓦型太阳能屋顶.中国发明专利，授权号：CN113152806B，2024.

[7]     季杰；柯伟；徐礼颉.一种使用相变材料的多功能太阳能墙体系统.中国发明专利，申请号：CN202110362388.X，公开号：CN113062494A，2021.

[8]     季杰；温馨；宋智莹；李照萌.一种基于光热协作发电的聚光型热管式光伏光热系统.中国发明专利，申请号：CN202011269761.9，公开号：CN112271980A，2021.

[9]     季杰；宋智莹；蔡靖雍；李照萌；韩可东；罗坤.一种结合菲涅尔聚光光伏和温差发电片的直膨式热泵系统.中国发明专利，申请号：CN202010961728.6，公开号：CN111953233A，2020.

[10] 余本东；季杰；柯伟.一种催化净化-除菌杀毒型多功能光伏被动通风墙体.中国发明专利，申请号：CN202010955004.0，公开号：CN112049280A，2020.

[11] 余本东；张峰；季杰. 一种自调节的带除湿净化功能的光伏集热蓄热墙系统. 中国发明专利，授权号：CN111721011B，2024.

[12] 季杰；韩可东；蔡靖雍；高毓壑；苏鹏. 离网光伏直驱冰蓄冷空调冰箱系统. 中国发明专利，申请号：CN201910180486.4，公开号：CN109882975A，2019.

[13] 季杰；李照萌；袁伟琪；唐文学. 外置式碲化镉薄膜电池太阳能光伏光热平板集热器. 中国发明专利，申请号：CN201811526838.9，公开号：CN109631354A，2019.

[14] 季杰；袁伟琪. 一种相变蓄热太阳能光伏光热平板集热器. 中国发明专利，授权号：CN109617509B，2019.

[15] 季杰；唐文学；裴广军. 真空玻璃盖板 PVT 太阳能集热器. 中国发明专利，申请号：CN201811525147.7，公开号：CN109612128A，2019.

[16] 李晶；高广涛；裴刚；苏跃红；任晓；季杰. 基于复叠朗肯循环和两级水蓄热的工业余热回收发电系统. 中国发明专利，授权号：CN108798812B，2023.

[17] 季杰；周帆. 一种与建筑相结合的三效光伏光热墙体. 中国发明专利，申请号：CN201810432841.8，公开号：CN108645055A，2018.

[18] 李晶；裴刚；高广涛；任晓；季杰. 基于气液两相集热器的太阳能复叠有机朗肯循环发电系统. 中国发明专利，授权号：CN108506177B，2024.

[19] 李晶；裴刚；高广涛；任晓；季杰. 一种具有不同放热模式的太阳能复叠朗肯循环发电系统. 中国发明专利，授权号：CN107288834B，2023.

[20] 季杰；周帆. 一种相变蓄热抗冻型太阳能集热器. 中国发明专利，授权号：CN107044736B，2023.

[21] 季杰；孙炜；马杨. 一种光伏电池中置式特隆布墙. 中国发明专利，授权号：CN106936374B，2019.

[22] 季杰；周帆. 一种相变蓄热抗冻型太阳能集热器. 中国发明专利，授权号：CN107044736B，2017.

[23] 季杰；赵东升；庾汉成. 一种主被动复合的太阳能炕采暖系统. 中国发明专利，申请号：CN201710217930.6，公开号：CN106885293A，2017.

[24] 吴友朋；周才欢；吴沐林；劳奕健；唐秋满；汪南；季杰；朱苏茹；罗恒贯. 傻瓜式热泵热水器及其自检清洁方法. 中国发明专利，申请号：CN201710059176.8，公开号：CN106642684A，2017.

[25] 吴友朋；周才欢；吴沐林；赖光兴；唐秋满；汪南；季杰；朱苏茹. 电热水器防爆水箱. 中国发明专利，申请号：CN201710059242.1，公开号：CN106595065A，2017.

[26] 季杰；蔡靖雍；赖光兴. 一种基于栅格光电感应效应的槽式太阳能集热器及其位置传感器. 中国发明专利，授权号：CN106642749B，2018.

[27] 季杰；赵志；李桂强；唐文学. 带有热电自适应降温组件的便携式光伏直驱冰箱系统. 中国发明专利，申请号：CN201710023331.0，公开号：CN106642902B，2017.

[28] 季杰；蔡靖雍；赖光兴. 一种空气源–太阳能双热源热泵热水系统. 中国发明专利，申请号：CN201710022906.7，公开号：CN106642683A，2017.

[29] 季杰；唐文学；赵志；蔡靖雍；黄文竹. 压缩机转速随辐照改变的无蓄电池便携式光伏直驱冰箱系统. 中国发明专利，申请号：CN201710005613.8，公开号：CN106766491A，2017.

[30] 李晶；裴刚；高广涛；王其梁；季杰. 具有两级蓄热水罐的直膨式太阳能热电联供系统. 中国发明专利，授权号：CN106762487B，2023.

[31] 胡中停；何伟；吕松；季杰. 百叶型光伏集热墙. 中国发明专利，申请号：CN201611107835.2，公开号：CN106803735A，2017.

[32] 李桂强；宣庆东；裴刚；季杰. 用于建筑南墙的太阳能内壁透镜式复合抛物面聚光器. 中国发明专利，授权号：CN106526822B，2019.

[33] 裴刚；曹静宇；胡名科；王其梁；季杰. 一种太阳能冰箱. 中国发明专利，授权号：CN105972856B，2018.

[34] 裴刚；曹静宇；胡名科；高广涛；季杰. 太阳能双系统冰箱. 中国发明专利，授权号：CN105953494B，2018.

[35] 裴刚；胡名科；曹静宇；赵斌；季杰. 一种多功能的光谱选择性封装材料. 中国发明专利，授权号：CN105957912B，2017.

[36] 唐文学；方少伟；季杰；裴广军. 一种紧凑式太阳能热水器. 中国发明专利，申请号：CN201610302197.3，公开号：CN105805961A，2016.

[37] 季杰；李桂强；胡广良. 一种可固定安装的非对称聚光光伏光热系统. 中国发明专利，授权号：CN105577105B，2018.

[38] 季杰；李桂强；胡广良. 太阳能真空管型微槽道热管发电热水装置. 中国发明专利，申请号：CN201510948416.0，公开号：CN105553419A，2016.

[39] 季杰；何伟；胡广良. 一种节能装置. 中国发明专利，申请号：CN201510948413.7，公开号：CN105465870A，2016.

[40] 季杰；李晶；李鹏程；裴刚. 一种基于复叠朗肯循环的直膨式太阳能热发电系统. 中国发明专利，申请号：CN201510948417.5，公开号：CN105464914A，2016.

[41] 裴刚；季杰；胡名科；王其梁. 具有夜间辐射制冷功能的平板型光伏光热综合利用装置. 中国发明专利，授权号：CN105245184B，2017.

[42] 裴刚；季杰；胡名科；王其梁. 具有白天集热和夜间辐射制冷功能的复合抛物面聚光集散热器. 中国发明专利，授权号：CN105241081B，2017.

[43] 裴刚；王其梁；胡名科；李晶；曹静宇；季杰. 一种槽式聚光型太阳能真空集热管. 中国发明专利，申请号：CN201510622783.1，公开号：CN105157257A，2015.

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