期刊
HEAT AND MASS TRANSFER
卷 58, 期 4, 页码 683-693出版社
SPRINGER
DOI: 10.1007/s00231-021-03141-7
关键词
Untreated sewage source heat pump; Spiral-flow type filter; Plate sewage heat exchanger; Sewage velocity; Heat transfer coefficient
资金
- Tianjin Youth Fund Project [15JCQNJC06800]
A specially designed sewage source heat pump system was developed and tested, including a spiral-flow sewage filter and automatic backwashing plate sewage heat exchanger. The heat transfer coefficient model of the plate heat exchanger was validated, the impact of sewage flow velocity on the exchanger was analyzed, COP value was calculated, and energy conservation performance of the system was evaluated.
Urban untreated sewage is widely used as a heat source in the heat pump system. Sewage energy has typically been extracted indirectly, i.e., by setting up a heat exchanger before the units. Among sewage heat exchangers, the shell-and-tube heat exchanger is widely applied, while the untreated sewage source heat pump system using a plate heat exchanger is less common owing to its special structure requiring a higher quality of sewage treatment and a superior cleaning method. To solve this problem, a specially designed, sewage source heat pump system was developed and tested. It consists of a kind of pretreatment device, i.e. self-designed spiral-flow type sewage filter and automatic backwashing plate sewage heat exchanger. The model of the heat transfer coefficient of the plate heat exchanger is validated through the comparison between the actual operation data and the theoretical value, and then the influence of the sewage flow velocity on the exchanger is analyzed. Finally, the COP value is calculated, and an energy conservation performance evaluation of the complete system is performed. The test results of actual operation show that the COP value of the new sewage source heat pump system proposed in this paper is 3.02. The filter device has good anti-clogging effect, and the heat exchanger runs stably, achieving the expected energy saving effect.
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