Can heat pump heat storage system perform better for space heating in China’s primary schools? A field test and simulation analysis

•Energy performance of space heating systems was tested in two primary schools.•The mismatch between heat supply and demand led to poor energy performance.•The heat pump heat storage system saved heat consumption and improved energy efficiency.•The heat pump heat storage system was suitable for spac...

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Bibliographic Details
Published in:Energy and buildings Vol. 279; p. 112684
Main Authors: Deng, Jiewen, Peng, Chenwei, Qiang, Wenbo, Wei, Qingpeng, Zhang, Hui
Format: Journal Article
Language:English
Published: Elsevier B.V 15-01-2023
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Summary:•Energy performance of space heating systems was tested in two primary schools.•The mismatch between heat supply and demand led to poor energy performance.•The heat pump heat storage system saved heat consumption and improved energy efficiency.•The heat pump heat storage system was suitable for space heating in primary school. The space heating system has a significant influence on the energy consumption and comfortable indoor environment for primary schools in China’s cold area. This study investigated the operational performance of heat pump systems in two primary schools. Results showed that the primary school buildings had high heating load at turn-on period every morning, which then quickly decreased when the students came to classroom. With this wide-range variation of heating load and unreasonable control strategy, the mismatch between heat source and heating demand happened very easily among the whole heating season. It then led to typical issues and poor energy efficiency of heat pump systems, including excessive space heating after school, low load ratio and frequent start-stop operation of heat pump systems, small water temperature difference and excessive water flow rate of water distribution system, etc. In allusion to those core issues, the heat pump heat storage system (HPHS) was raised for space heating in primary schools to decouple the heat supply side and the heat demand side. Then this study simulated and analyzed the operational performance of HPHS. Results showed that with reasonable control strategy, the excessive heat supply after school was effectively avoided to save almost 51% of the total heat consumption. Besides, the heat pumps could operate stably with almost full heating load for heat storage, thus reaching better energy performance with annual average COP of 5.13. Also the water distribution systems in the ground side, heat storage side and user side could reach better energy performance with high energy efficiency and reasonable water temperature difference among the heating season. Therefore, the HPHSs with reasonable control strategy could effectively solve those typical issues and are more suitable for primary schools.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2022.112684