Application and development of ground source heat pump technology in China

Author:

Song Chaofan,Li Yang,Rajeh Taha,Ma Ling,Zhao JunORCID,Li Wenjia

Abstract

AbstractGround source heat pumps (GSHPs) are one of the renewable energy technologies with features of high efficiency, energy saving, economic feasibility and environmental protection. In China, GSHPs have been widely used for building heating and cooling in recent years, and have shown great potential for future energy development. This paper summarizes the classification, development history, and use status of shallow GSHPs. Several typical engineering cases of GSHP technology are also specified and analyzed. Finally, promising development trends and some advanced technologies are illustrated.

Funder

National Key R&D Program of China

Publisher

Springer Science and Business Media LLC

Subject

Electrical and Electronic Engineering,Energy Engineering and Power Technology,Safety, Risk, Reliability and Quality

Reference21 articles.

1. Zhou, L., Zhang, D., Wu, W., Zhu, M., Yang, H., Li, C., Cui, M. (2018). A comparative study on grid resource utilization rate between China Southern Power Grid and National Grid plc of UK. Protection and Control of Modern Power System, 3(1), 26. https://doi.org/10.1186/s41601-018-0100-6.

2. Yi Yuechun. Summary of China Renewable Energy Development Report 2019 [EB]/ [OL]. https://wenku.baidu.com/view/c5e4244d0b12a21614791711cc7931b765ce7ba2.html?fr=search-1_income5. Accessed 25 July 2020.

3. Xu, W. (2019). China ground source heat pump development research report (2018) [M]. Beijing: China Construction Industry Press.

4. China geothermal energy development report (2018) [R]. Ministry of natural resources, China Geological Survey, Department of new and renewable energy, national energy administration, Chinese Academy of Sciences, Institute of resources and environmental policy, development research center of the State Council, 2018

5. Wang, W., Wang, G., Zhu, X., & Zhiming, L. (2017). Conditions and potential evaluation of shallow geothermal energy development and utilization in provincial capital cities of China [J]. Geology of China, 44(06), 1062–1073.

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