Monograph:

[1] J. Ji, G. Pei, W. He, W. Sun, G. Li, J. Li. Research Proggress on Solar Photovoltaic/Thermal System Utilization. Published by Science Press, Beijing, 2017. ISBN 978-7-03-053979-3.

[2] J. Ji, Research and Application of the Novel Solar Thermal Technologies Based on Flat-plate Solar Collectors, Published by Science Press, Beijing, 2018. ISBN 978-7-03-056084-1.

[3] J. Ji, J. Cai, Z. Song, T. Zhang. Theory and Application of Solar Photovoltaic-Heat Pump-Refrigeration-Air Conditioning, Published by the University of Science and Technology of China Press, Hefei, 2025. ISBN 978-7-312-06319-0.

        Reseach Projects:

 [1] National Key Research and Development Program of China, "Building Photovoltaic System Simulation and Design Software" Project 2 "Research on Multiphysics Coupling Mechanism and   Modeling Technology of Building Photovoltaics", 2022YFB4201002, 2022.12-2025.11, RMB 2.79 million, under research, presided;

[2] Key Program of National Natural Science Foundation of China Key Program, Research on the Construction of Solar Photovoltaic Photothermal/Catalytic Clean Wall Mechanism and Its Impact on Building Energy Consumption/Healthy Environment, 52238004, 2023.01-2027.12, RMB 2.68 million, under research, presided;

[3] Anhui Province Science and Technology Major Special Project, Research and Demonstration of Building Components and Building Source-Load Matching Control Strategy for Comprehensive Utilization of Solar Photovoltaic, 202203A07020021, 2022.05-2025.05, RMB 1.5 million, completed, presided;

[4] General Program of National Natural Science Foundation of China, Research on the Impact of Three-Effect Photovoltaic/Solar Thermal Wall on Energy Consumption and Indoor Thermal Environment, 51878636, 2019.01-2022.12, RMB 0.6 million, completed, presided;

 [5] Anhui Province Key Research and Development Program, Research and Demonstration of New Integrated Utilization of Solar Photovoltaic and Photothermal Buildings, 210904a07020014,  2019.01-2021.12, RMB 1.6 million, completed, presided;

[6] GCRF Networking Grants scheme, Developing Self-powering Residential Houses for South, South East and East Asia, GCRFNGR2\10395, 2018.08-2019.08, GBP 25,000, completed, presided;

[7] Dongguan Major Science and Technology Project, Key Technology Development and Industrialization of Novel Solar/Heat Pump Coupled Drying System, 2017.09-2019.12, RMB 20 million, completed, presided;

[8] National Key Research and Development Program of China, Research and Development of A New Generation of High-Efficiency and Low-Cost Solar Photovoltaic Solar Thermal and Building Integration System, 2016YFE0124800, 2017.04-2019.03, RMB 9.3 million, completed, presided;

[9] General Program of National Natural Science Foundation of China, Research on Building Thermal Environment Based on Active and Passive Composite Heating of Solar Kang, 51378483, 2014.01-2017.12, RMB 0.8 million, completed, presided;

[10] External Cooperation Program of Chinese Academy of Sciences, Research on Key Technical Issues of High-efficiency and Low-cost Solar Photovoltaic Solar Thermal Building Integration System, 211134KYSB2016005, 2016.01-2018.12, RMB 1 million, completed, presided;

[11] National Key Technology Research and Development Program of the Ministry of Science and Technology of China, Research and Demonstration of Key Technologies for Improving Thermal Efficiency of Solar Flat Panel Collectors, 2015BAA02B03, 2015.04-2017.12, RMB 0.945 million, completed, presided;

[12] Dongguan City Introduces Innovative Scientific Research Teams, Innovation Team for Integrated Solar Energy and Building Technology, 201467101008, 2014.07-2019.06, RMB 20 million, completed, presided;

[13] National High-Tech Research and Development Program of China (863 Program), Research and demonstration of concentrated GaAs power generation and heating system technology, 2013AA050403, 2013.01-2015.01, RMB 2.48 million, completed, presided;

[14] EU Seventh Framework Programme for Personnel Exchange, R&D in Sustainable Building Energy Systems and Retrofitting, KD1301220013, 2013.01-2015.01, RMB 0.45 million, completed, presided;

[15] Guangdong Provincial Ministry of Education Industry-University-Research Collaboration Project, Research and Application of Novel Solar Drying Technology, 2012B091000019, 2012.05- 2014.04, RMB 8 million, completed, presided;

[16] Chinese Academy of Sciences Knowledge Innovation Project，Research on Concentrated GaAs Power Generation and Heating System, CX2090130023, 2011.01-2013.12, RMB 2.4 million, completed, presided;

[17] General Program of National Natural Science Foundation of China, Research on key issues of photovoltaic-solar heat pump/heat pipe composite systems, 50978241, 2010.01-2012.12, RMB 0.36million, completed, presided;

[18] General Program of National Natural Science Foundation of China,  Study of overall performance of a novel PV-Trombe wall, 50876098, 2009.01-2011.12, RMB 0.36 million, completed, presided;

[19] Knowledge Innovation Project of The Chinese Academy of Sciences, Research and Integrated Demonstration of New Technologies in Solar Building Applications, KGCX2-YW-378, 2009.7- 2012.6, RMB 5.5 million, completed, presided;

[20] Guangdong Province Major Science and Technology Special Program, Solar Photovoltaic Photothermal Integration Technology and Demonstration Project Integrated with Building, 2009A080302001, 2009.06-2011.05, RMB 130 million, completed, presided;

[21] Key Breakthrough Projects in Key Areas of Guangdong and Hong Kong, Research on key technologies for integrated photovoltaic and solar thermal utilization and development of building-integrated products, 2009205200023, 2008.12-2011.04, RMB 9 million, completed, presided.

[22] The National Key Research and Development Program during the 11th Five-year Plan Period, Research and Development of Building Integrated Solar Collector Modules, 2006BAA04B04, 2007.1-2010.12, RMB 2 million, completed, presided.

[23] Dongguan Municipal Bureau of Economy and Information Technology, Functional solar collector, 2007.2-2008.11, RMB 17.3 million, completed, presided.

[24] Industry-specific technology innovation platform, Dongguan Solar Energy Technology Research Institute, Dongke Letter [2007] No. 70, 2007.1-2009.12, RMB 20 million, completed, presided.

[25] National High-Tech Research and Development Program of China (863 Program), Research on key issues in building-integrated photovoltaics and solar thermal systems, 2006.12-2008.12, RMB 1 million, completed, presided.

[26] Key Breakthrough Projects in Key Areas in 2006, High-efficiency, pressurized, split-type solar water heating system integrated with buildings, 2006A15301001, 2006.3-2008.11, RMB 10.1 million,  completed, presided.

[27] Key Breakthrough Projects in Key Areas of Guangdong and Hong Kong, Multifunctional solar heat pump system, 2006168401, 2006.2-2008.12, RMB 7.5 million, completed, presided.

[28] The General Program of National Natural Science Foundation of China, System design optimization and study of fluid flow and heat transfer characteristics for multi-function heat pump, 50478023, 2005.01-2007.12, RMB 0.24 million, completed, presided;

       Papers:

       @ 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.

        Patents

[1]  Jie Ji, Chengyan Zhang et al. Tandem type photovoltaic ventilation curtain wall-PV/T air heat collector coupling system and working method. Chinese Invention Patent, Application No. CN202411256148.1, Publication No. CN118980185A, 2024.

[2]     Jie Ji, Xinyi Tian. Sweeping curved surface type flexible photovoltaic module generating capacity calculation method. Chinese Invention Patent, Application No. CN202410945007.4, Publication No. CN118841971A, 2024.

[3]     Yayun Tang, Jie Ji et al. Zhiying Song. Semi-transparent photovoltaic ventilation curtain wall system combined with air supply and reheating of air conditioning system. Chinese Invention Patent, Application No. CN202410791517.0, Publication No. CN118532768A, 2024.

[4]     Niansi Li, Jie Ji et al. Louver type glass curtain wall for indoor dehumidification and gaseous pollutant removal and use method. Chinese Invention Patent, Application No. CN202210510407.3, Publication No. CN114876107A, 2022.

[5]     Jing Li, Gang Pei, Jie Ji, Datong Gao. Tower type solar thermal power generation system adopting biphenyl and diphenyl ether mixture cycle working medium. Chinese Invention Patent, Granted, Patent No. CN114439714B, 2024.

[6]     Jie Ji, Jun Wang, Xinyi Tian, Chuyao Wang. Black-tile type solar roof with multiple functions of power generation, heat supply and ventilation. Chinese Invention Patent, Granted, Patent No. CN113152806B, 2024.

[7]     Jie Ji, Wei Ke, Lijie Xu. Multifunctional solar wall body system using phase change material. Chinese Invention Patent, Application No. CN202110362388.X, Publication No. CN113062494A, 2021.

[8]     Jie Ji, Xin Wen, Zhiying Song,, Zhaomeng Li. Concentrating heat pipe type photovoltaic photo-thermal system based on photo-thermal cooperative power generation. Chinese Invention Patent, Application No. CN202011269761.9, Publication No. CN112271980A, 2021.

[9]     Jie Ji, Zhiying Song, Jingyong Cai, Zhaomeng Li, Kedong Han, Kun Luo. Direct expansion type heat pump system combining Fresnel concentrating photovoltaic and thermoelectric power generation sheets. Chinese Invention Patent, Application No. CN202010961728.6, Publication No. CN111953233A, 2020.

[10] Bendong Yu, Jie Ji, Wei Ke. Catalytic purification-sterilization disinfection type multifunctional photovoltaic passive ventilation wall. Chinese Invention Patent, Application No. CN202010955004.0, Publication No. CN112049280A, 2020.

[11] Bendong Yu, Feng Zhang, Jie Ji. Self-adjusting photovoltaic heat collection and heat storage wall system with dehumidifying purifying function. Chinese Invention Patent, Granted, Patent No. CN111721011B, 2024.

[12] Jie Ji, Kedong Han, Jingyong Cai, Yuhu Gao, Peng Su. Off-network photovoltaic direct-drive ice storage air conditioning refrigerator system. Chinese Invention Patent, Application No. CN201910180486.4, Publication No. CN109882975A, 2019.

[13] Jie Ji, Zhaomeng Li, Weiqi Yuan, Wenxue Tang. External cadmium telluride thin film battery solar photovoltaic photo-thermal flat plate collector. Chinese Invention Patent, Application No. CN201811526838.9, Publication No. CN109631354A, 2019.

[14] Jie Ji, Weiqi Yuan. Phase-change heat storage solar photovoltaic photo-thermal flat-plate heat collector. Chinese Invention Patent, Granted, Patent No. CN109617509B, 2019.

[15] Jie Ji, Wenxue Tang, Guangjun Pei. Vacuum glass covering plate PVT solar thermal collector. Chinese Invention Patent, Application No. CN201811525147.7, Publication No. CN109612128A, 2019.

[16] Jing Li, Guangtao Gao, Gang Pei, Yuehong Su, Xiao Ren, Jie Ji. Industrial waste heat recovery power generation system based on overlap Rankine cycle and two-stage water heat storage. Chinese Invention Patent, Granted, Patent No. CN108798812B, 2023.

[17] Jie Ji, Fan Zhou. Triple-effect photovoltaic photo-thermal wall combined with building. Chinese Invention Patent, Application No. CN201810432841.8, Publication No. CN108645055A, 2018.

[18] Jing Li, Gang Pei, Guangtao Gao, Xiao Ren, Jie Ji. Solar overlap organic rankine cycle power generation system based on gas and liquid dual-phase heat collector. Chinese Invention Patent, Granted, Patent No. CN108506177B, 2024.

[19] Jing Li, Gang Pei, Guangtao Gao, Xiao Ren, Jie Ji. Solar overlapped Rankine cycle electricity generation system with different heat release modes. Chinese Invention Patent, Granted, Patent No. CN107288834B, 2023.

[20] Jie Ji, Fan Zhou. Phase change heat storage antifreeze type solar heat collector. Chinese Invention Patent, Granted, Patent No. CN107044736B, 2023.

[21] Jie Ji, Wei Sun, Yang Ma. Novel Trombe wall with photovoltaic cells positioned in the middle. Chinese Invention Patent, Granted, Patent No. CN106936374B, 2019.

[22] Jie Ji; Fan Zhou. Phase change heat storage antifreeze type solar heat collector. Chinese Invention Patent, Granted, Patent No. CN107044736B, 2017.

[23] Jie Ji, Dongsheng Zhao, Hancheng Yu. Active-passive composite solar kang heating system. Chinese Invention Patent, Application No. CN201710217930.6, Publication No. CN106885293A, 2017.

[24] Youpeng Wu, Caihuan Zhou, Mulin Wu, Yijian Lao, Qiuman Tang, Nan Wang, Jie Ji, Suru Zhu, Hengguan Luo. User-friendly heat pump water heater and its self-inspection and cleaning method. Chinese Invention Patent, Application No. CN201710059176.8, Publication No. CN106642684A, 2017.

[25] Youpeng Wu, Caihuan Zhou, Mulin Wu,, Guangxing Lai, Qiuman Tang, Nan Wang, Jie Ji, Suru Zhu. Anti-explosion water tank for electric water heater. Chinese Invention Patent, Application No. CN201710059242.1, Publication No. CN106595065A, 2017.

[26] Jie Ji, Jingyong Cai, Guangxing Lai. Trough type solar heat collector based on grid photoelectric sensing effect and position sensor thereof. Chinese Invention Patent, Granted, Patent No. CN106642749B, 2018.

[27] Jie Ji, Zhi Zhao, Guiqiang Li, Wenxue Tang. Portable photovoltaic direct drive refrigerator system with thermoelectric self-adaption cooling assembly. Chinese Invention Patent, Granted, Patent No. CN106642902B, 2017.

[28] Jie Ji, Jingyong Cai, Guangxing Lai. Air source-solar energy double-heat source heat pump hot-water system. Chinese Invention Patent, Application No. CN201710022906.7, Publication No. CN106642683A, 2017.

[29] Jie Ji, Wenxue Tang, Zhi Zhao, Jingyong Cai, Wenzhu Huang. Non-storage-battery portable photovoltaic direct-driven refrigerator system with compressor rotation speed varying with irradiation. Chinese Invention Patent, Application No. CN201710005613.8, Publication No. CN106766491A, 2017.

[30] Jing Li, Gang Pei, Guangtao Gao, Qiliang Wang, Jie Ji. Direct-expansion type solar heat and electricity co-generation system provided with two stages of heat storage water tanks. Chinese Invention Patent, Granted, Patent No. CN106762487B, 2023.

[31] Zhongting Hu,, Wei He, Song Lü, Jie Ji. Shutter photovoltaic heat collection wall. Chinese Invention Patent, Application No. CN201611107835.2, Publication No. CN106803735A, 2017.

[32] Guiqiang Li, Qingdong Xuan, Gang Pei, Jie Ji. Solar interior wall lens type composite parabolic concentrator applied to building south wall. Chinese Invention Patent, Granted, Patent No. CN106526822B, 2019.

[33] Gang Pei, Jingyu Cao, Mingke Hu, Qiliang Wang, Jie Ji. Novel solar refrigerator. Chinese Invention Patent, Granted, Patent No. CN105972856B, 2018.

[34] Gang Pei, Jingyu Cao, Mingke Hu, Guangtao Gao, Jie Ji. Dual-system solar energy refrigerator. Chinese Invention Patent, Granted, Patent No. CN105953494B, 2018.

[35] Gang Pei, Mingke Hu, Jingyu Cao, Bin Zhao, Jie Ji. Multifunctional spectrum selective encapsulation material. Chinese Invention Patent, Granted, Patent No. CN105957912B, 2017.

[36] Wenxue Tang, Shaowei Fang, Jie Ji, Guangjun Pei. Compact type solar water heater. Chinese Invention Patent, Application No. CN201610302197.3, Publication No. CN105805961A, 2016.

[37] Jie Ji, Guiqiang Li, Guangliang Hu. Asymmetric concentrating photovoltaic photo-thermal system capable of realizing fixed installation. Chinese Invention Patent, Granted, Patent No. CN105577105B, 2018.

[38] Jie Ji, Guiqiang Li, Guangliang Hu. Solar vacuum tube-type micro-groove heat pipe power generation water heater. Chinese Invention Patent, Application No. CN201510948416.0, Publication No. CN105553419A, 2016.

[39] Jie Ji, Wei He, Guangliang Hu. Energy saving device. Chinese Invention Patent, Application No. CN201510948413.7, Publication No. CN105465870A, 2016.

[40] Jie Ji, Jing Li, Pengcheng Li, Gang Pei. Direct-expansion solar thermal power generation system based on cascade Rankine cycle. Chinese Invention Patent, Application No. CN201510948417.5, Publication No. CN105464914A, 2016.

[41] Gang Pei, Jie Ji, Mingke Hu, Qiliang Wang. Flat-plate photovoltaic-thermal comprehensive utilization device with night radiation refrigeration function. Chinese Invention Patent, Granted, Patent No. CN105245184B, 2017.

[42] Gang Pei, Jie Ji, Mingke Hu, Qiliang Wang. Compound parabolic condensation type heat collection and dissipation device with heat collection function at daytime and radiation refrigeration function at night. Chinese Invention Patent, Granted, Patent No. CN105241081B, 2017.

[43] Gang Pei, Qiliang Wang, Mingke Hu, Jing Li, Jingyu Cao, Jie Ji. Slot type light gathering type solar vacuum heat collecting pipe. Chinese Invention Patent, Application No. CN201510622783.1, Publication No. CN105157257A, 2015.

[44] Jie Ji, Ning Xu, Wei Sun, Lisheng Han, Zhuling Jin, Wenzhu Huang. High-concentration photovoltaic power generation and heating system. Chinese Invention Patent, Application No. CN201510564411.8, Publication No. CN105162412A, 2015.

[45] Gang Pei, Jingyu Cao, Qiliang Wang, Pengcheng Li, Jian Wang, Jie Ji. Energy-saving isothermal refrigerator. Chinese Invention Patent, Granted, Patent No. CN104596178B, 2016.

[46] Gang Pei, Jingyu Cao, Junfei Li, Mingke Hu, Yunyun Wang, Jie Ji. Refrigerator with reduced cooling loss in the freezer compartment. Chinese Invention Patent, Granted, Patent No. CN104596179B, 2016.

[47] Gang Pei, Pengyu Zhang, Jingyu Cao, Jie Ji. Direct-cooling fresh-keeping refrigerator. Chinese Invention Patent, Application No. CN201410646351.X, Publication No. CN104296457A, 2015.

[48] Jie Ji, Ning Xu, Wei Sun, Lisheng Han, Haifei Chen, Zhuling Jin. Fresnel-type concentrating photovoltaic–thermal module. Chinese Invention Patent, Application No. CN201410586434.4, Publication No. CN104320074A, 2015.

[49] Gang Pei, Jingyu Cao, Pengyu Zhang, Jing Li, Guangtao Gao, Jie Ji. Dual cold-storage chamber refrigerator. Chinese Invention Patent, Application No. CN201410586387.3, Publication No. CN104296455A, 2015.

[50] Gang Pei, Jingyu Cao, Pengyu Zhang, Jing Li, Ming Yang, Jie Ji. Annular heat-pipe cold-storage refrigerator. Chinese Invention Patent, Application No. CN201410586399.6, Publication No. CN104296456A, 2015.

[51] Wei He, Xiaoqiang Hong, Zhongting Hu, Song Lü, Bendong Yu, Niansi Li, Jie Ji. Multifunctional solar wall system. Chinese Invention Patent, Granted, Patent No. CN104314196B, 2016.

[52] Jie Ji, Yanqiu Wang, Weiqi Yuan, Wei Sun, Chao Guo. Photovoltaic-driven active solar hot water circulation system. Chinese Invention Patent, Granted, Patent No. CN103851798B, 2015.

[53] Gang Pei, Mingke Hu, Renchun Zheng, Jie Ji. Integrated solar thermal collection and radiative cooling application system. Chinese Invention Patent, Granted, Patent No. CN103776196B, 2016.

[54] Gang Pei, Mingke Hu, Longcan Zhang, Jie Ji. Trombe wall integrating solar thermal collection and radiative cooling. Chinese Invention Patent, Granted, Patent No. CN103790244B, 2016.

[55] Guiqiang Li, Jie Ji, Gang Pei, Zhuling Jin. Solar hierarchical daylighting system for buildings. Chinese Invention Patent, Application No. CN201410014572.5, Publication No. CN103697411A, 2014.

[56] Gang Pei, Jingyu Cao, Jie Ji. Refrigerator with thermal insulation and drying mechanisms. Chinese Invention Patent, Granted, Patent No. CN103836865B, 2015.

[57] Gang Pei, Longcan Zhang, Renchun Zheng, Jie Ji. Integrated solar thermal collection and radiative cooling system. Chinese Invention Patent, Granted, Patent No. CN103486760B, 2015.

[58] Gang Pei, Guiqiang Li, Yuehong Su, Jie Ji. Compound parabolic concentrator with an air interlayer for solar utilization on building inner walls. Chinese Invention Patent, Granted, Patent No. CN103438587B, 2014.

[59] Jianqing Zhu, Jie Ji, Wei He. Reversible solar window. Chinese Invention Patent, Granted, Patent No. CN103410426B, 2015.

[60] Jing Li, Jie Ji, Gang Pei. Permeation-enhanced pressurized thermodynamic power conversion cycle system. Chinese Invention Patent, Granted, Patent No. CN103437840B, 2015.

[61] Liqun He, Jie Ji. Thermophysical property database system for building materials in solar buildings. Chinese Invention Patent, Granted, Patent No. CN103345468B, 2017.

[62] Liqun He, Ping Wu, Jie Ji. Microfluidic preparation method based on ultraviolet light from light-emitting diodes. Chinese Invention Patent, Granted, Patent No. CN103011062B, 2015.

[63] Jie Ji, Haifei Chen, Gang Pei, Yunfeng Wang. High-concentration photovoltaic power generation and heating system. Chinese Invention Patent, Granted, Patent No. CN102957345B, 2015.

[64] Wei He, Chenchen Wang, Jie Ji. Photovoltaic controllable thermal collection wall integrated with Huizhou-style architectural shading eaves. Chinese Invention Patent, Granted, Patent No. CN102787701B, 2014.

[65] Jie Ji, Yunfeng Wang, Haifei Chen,, Gang Pei. Multi-plane reflective mirror solar concentrating device. Chinese Invention Patent, Granted, Patent No. CN102789046B, 2014.