FACULTY

Assistant Professor, Ph.D. Supervisor

Office：C512, Sci-Tech Innovation Building

Email: teng.jia@nju.edu.cn

Education Background

2016-2020，Ph.D, School of Mechanical Engineering, Shanghai Jiao Tong University

2014-2016，M.Eng, School of Energy Science and Engineering, Harbin Institute of Technology

2010-2014，B.Eng, School of Energy Science and Engineering, Harbin Institute of Technology

Professional Appointments

2024-Now Assistant Professor & Ph.D. Supervisor, School of Sustainable Energy and Resources, Nanjing University

2020-2024 Postdoc, School of Mechanical Engineering, Shanghai Jiao Tong University

2022-2023 Postdoctor (visiting), Department of Chemical Engineering, Imperial College London, UK

2021-2024 Assistant Researcher, School of Mechanical Engineering，Shanghai Jiao Tong University

Research Areas

Solar energy efficient cold/heat/electricity/high-value fuel conversion and storage

Solar photovoltaic-thermal (PV-T) components and systems

Energy management and heat and mass transfer enhancement for new energy devices and systems

Professional Services

Young Editorial Member of Journal of Refrigeration (Chinese Journal)

Guest Editor of Renewable & Sustainable Energy Reviews, Energy and Buildings, Solar Energy, Applied thermal Engineering

Reviewer of Energy Conversion and Management, Renewable & Sustainable Energy Reviews, Solar Energy

Research Projects

Shanghai Housing and Urban & Rural Construction Administration Commission, Research and Development Project, Research on solar Photovoltaic-thermal (PVT) Electricity & Heat cogeneration Technology and Potential in Building Application, 2024-2026, Host

Youth Project of National Natural Science Foundation of China, Mechanisms Analysis of Thermodynamic Cycle and Experimental Investigation on Solar-driven Ammonia Compression-absorption-reabsorption Hybrid Heat Pump, 2022-2024, Host

National Key Research and Development Program of China, The Spain-China Technology Cooperation Progtam (CHINEKA), Key Technologies of High Performance and Reliable Beam-down CSP Assisted Photovoltaic Power Supply System, 2023-2025, Task leader

Open project of Zhejiang Key Laboratory of Solar Energy Utilization and Energy Saving Technology, Research on Low Heat Loss and Long-distance Heat Transportation Technology Based on Ammonia-water Absorption-resorption Heat Pump, 2021-2024, Host

Shanghai Science and Technology Commission Science and Technology Innovation Action "Carbon Peak & Carbon Neutral" Project, Key Technologies and Demonstration Application of High-efficiency and Low-cost Solar Photovoltaic-thermal (PVT) Composite System, 2022-2025, Senior Investigator

Gansu Provincial Department of Science and Technology Major Project - Social Development Category, Research and Demonstration of Key Technologies for Zero-carbon Buildings, 2022-2025, Main Investigator

Awards and Honors

International Postdoctoral Exchange Fellowship Program by the Office of China Postdoctoral Council (2022)

Overseas postdoctoral Teacher Reserve Project of Shanghai Jiao Tong University (2020)

Shanghai Super postdoctoral Incentive Program (2020)

The National scholarship of China for Doctoral Candidates (2018)

The National Scholarship of China for Undergraduate Students (2012-2013)

Selected Publications（*Corresponding Author）

1. T. Jia, P.B. Dou, P. Chu, Y.J. Dai*, C.N. Markides*. Development and performance evaluation of a high solar contribution resorption-compression cascade heat pump for cold climates. Energy, 302 (2024): 131806.

2. T. Jia, P.B. Dou, P. Chu, E.J. Chen, Y.J. Dai*. Experimental and theoretical investigation on a novel solar-assisted absorption-resorption heat pump (ARHP) system towards clean heating. Sustainable Cities and Society, 107 (2024): 105478.

3. T. Jia, P.B. Dou, E.J. Chen, Y.J. Dai*. Feasibility and performance analysis of a hybrid GAX-based absorption-compression heat pump system for space heating in extremely cold climate conditions. Energy, 242(2022): 122936.

4. T. Jia, P.B. Dou, P. Chu, Y.J. Dai*. Proposal and performance analysis of a novel solar-assisted resorption -subcooled compression hybrid heat pump system for space heating in cold climate condition. Renewable Energy, 150(2020): 1136-1150.

5. T. Jia, P.B. Dou, P. Chu, Y.J. Dai*. Working domains of a novel solar-assisted GAX-based two-stage absorption-resorption heat pump with multiple internal heat recovery for space heating. Energy Conversion and Management, 220(2020): 113060.

6. T. Jia, E.Q. Dai, Y.J. Dai*. Thermodynamic analysis and optimization of a balanced-type single-stage NH₃-H₂O absorption-resorption heat pump cycle for residential heating application. Energy, 171(2019): 120-134.

7. T. Jia, Y.J. Dai*. Development of a novel unbalanced ammonia-water absorption-resorption heat pump cycle for space heating. Energy, 161 (2018) 251-265.

8. T. Jia, Y.J. Dai*, R.Z. Wang. Refining energy sources in winemaking industry by using solar energy as alternatives for fossil fuels: A review and perspective. Renewable & Sustainable Energy Reviews, 88 (2018): 278-296.

9. T. Jia, J.P. Huang, R. Li, P. He, Y.J. Dai*. Status and prospect of solar heat for industrial processes in China. Renewable & Sustainable Energy Reviews, 90(2018): 475-489.

10. X.Z. Gu, H. Chen, S.X. Song, W.T. Xie, Y.D. Chen, T. Jia*, R.N. Gilaberte, B. Yu, S.C. Zhou, Y.J. Dai. Quantitative assessment and multi-objective optimization of supercritical CO₂ cycles with multiple operating parameters. International Journal of Thermal Sciences, 201(2024): 109001.

11. X.Z. Gu, H. Chen, D.Q. Xu, S.X. Song, W.T. Xie*, Y.D. Chen, R.N. Gilaberte, T. Jia*, Y.J. Dai*, et al. Theoretical and run-test investigation on a 50 MW beam-down concentrating solar power plant in China. Energy Conversion and Management, 308(2024):118389.

National Invention Patents

1. Fuel cell heat recovery and heating system based on total heat exchanger and heat pump technology. ZL202111367172.9

2. Two-stage ammonia-water absorption-resorption heat pump with the two generators driven by heat sources same temperature and the heating method. ZL201711230636.5

3. Single-stage balanced-type ammonia-water absorption-resorption heat pump and the heating method. ZL201711230635.0

4. Triple-stage ammonia-water absorption-resorption heat pump cycle with the three generators driven by heat sources same temperature and the heating method. ZL201711230638.4

5. A solar-assisted heating and cooling double supply system based on absorption-compression heat pump. ZL202210064287.9

6. A heat storage and long-distance heat transportation system with large concentration difference based on absorption-resorption cycle. ZL202210078176.3

7. A solar absorption air conditioning system coupled with desiccant coated heat exchanger. CN202310287145.3

8. A solar heat-cooling-power-storage combined system based on high-efficiency photovoltaic-thermal (PVT) modules. CN202211208933.0

9. A direct-expansion multi-chip PVT module with back outlet tubes. 202210193734.0

10. An ammonia-water resorption long-distance heating system for improving user-side energy grade. CN202410355053.9

11. A solar-assisted ammonia compression-absorption-resorption hybrid heat pump system and the operation method. CN202410313635.0

12. A high-temperature heat pump Carnot battery system for a solar power station. CN202410313634 .6

13. A multi-box battery pack direct cooling and heat management system and energy storage device. CN202410377021.9

14. An electricity storage system based on heat pump and its operation method with novel cold and heat recovery configurations.