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Operational Performance Analysis of an Integrated Solar PV/T and Air Source Heat Pump System

  • 2025
  • OriginalPaper
  • Chapter
Published in:
Authors
Fu Liang

Fu Liang

  • School of Energy and Civil Engineering, Harbin University of Commerce, 150028, Harbin, China
Haoran Ning Corresponding author

Corresponding author Haoran Ning

  • School of Energy and Civil Engineering, Harbin University of Commerce, 150028, Harbin, China
  • Northeast Asia Service Outsourcing Research Center, Harbin University of Commerce, 150028, Harbin, China
  • National Center of Technology Innovation for Green and Low-Carbon Building, 1000120, Beijing, China
Corresponding author 102989@hrbcu.edu.cn
Zeguo Qiu

Zeguo Qiu

  • Northeast Asia Service Outsourcing Research Center, Harbin University of Commerce, 150028, Harbin, China
Jianfeng Qian

Jianfeng Qian

  • School of Energy and Civil Engineering, Harbin University of Commerce, 150028, Harbin, China
Huaxin Wu

Huaxin Wu

  • Tsinghua Tongfang Energy Conservation Engineering Technology Co., LTD., 100083, Beijing, China
Bin Zhong

Bin Zhong

  • School of Energy and Civil Engineering, Harbin University of Commerce, 150028, Harbin, China
Published in
Proceedings of the 12th International Conference on Cold Climate HVAC & Energy (Volume 1)
Publisher
Springer Nature Singapore

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Abstract

This chapter delves into the operational performance of an integrated solar PV/T (photovoltaic/thermal) and air source heat pump system, focusing on its efficiency in combined heat and power supply. The study establishes a test platform to analyze the system's performance under various outdoor conditions, comparing it with traditional photovoltaic systems and air source heat pumps. Key findings include the system's average power generation efficiency of 15.16% and thermal efficiency of 21.58%, significantly outperforming conventional PV systems. The chapter also explores the system's coefficient of performance (COP) in different regions, highlighting its superior performance in warm climates compared to cold regions. Additionally, the study investigates the impact of water volume on the system's efficiency and the optimal number of PV/T panels for maximum performance. The conclusions drawn emphasize the system's potential for low-carbon and energy-saving applications, providing a valuable reference for professionals in the field.
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previous chapter Experimental Study on Direct Expansion Solar Assisted Heat Pump System Based on PV/T Panel
next chapter Experimental Evaluation of Energy Conversion Characteristics in Composite Photovoltaic/Thermal System with Phase Change Material
Title
Operational Performance Analysis of an Integrated Solar PV/T and Air Source Heat Pump System
Authors
Fu Liang
Haoran Ning
Zeguo Qiu
Jianfeng Qian
Huaxin Wu
Bin Zhong
Copyright Year
2025
Publisher
Springer Nature Singapore
Book
Proceedings of the 12th International Conference on Cold Climate HVAC & Energy (Volume 1)

Print ISBN: 978-981-9532-48-3

Electronic ISBN: 978-981-9532-49-0

Copyright Year: 2025

DOI
https://doi.org/10.1007/978-981-95-3249-0_3
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