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Experimental analysis of a novel gas-engine-driven heat pump (GEHP) system for combined cooling and hot-water supply.

Author(s) : JIA L-L, ZHANG R., ZHANG X., MA Z.-X., LIU F. G.

Type of article: IJR article

Summary

Heat pump technologies have been widely used in air conditioning and hot water application. However, most of the heat pump systems adopt an expansion valve to complete the cooling and heating modes currently. The flaw is that as the four-way valve is switched, the expansion valve cannot be guaranteed to be very close to the inlet of the evaporator in both modes, making the performance of the cooling or heating mode worse. In addition, for gas-engine-driven heat pump (GEHP), the utilization of engine waste heat is insufficient. Based on the above two shortcomings, a novel GEHP unit with an advanced finned tube heat exchanger and three thermostatic expansion valves was built in this work. The performance was evaluated under an experimental operating range of engine speed from 1300 rpm to 2000 rpm, air temperature from 23.8°C to 27.7°C, and evaporator water inlet temperature from 13.2°C to 22.4°C. Experimental results showed that when the engine speed and ambient temperature increased, the compression ratio increased, whereas the coefficient of performance (COP), primary energy ratio with heat recovery (PER1), and primary energy ratio without heat recovery (PER2) of the system decreased linearly. As the evaporator water inlet temperature increased from 13.2°C to 22.4°C, the COP, PER1, and PER2 had an improvement of 23.6%, 20.8%, and 27.6%, respectively. The averages of COP, PER1 and PER2 were 3.67, 1.57 and 0.96, respectively. The results indicated that the novel GEHP unit was able to maintain expected high performance.

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Pages: 84-92

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Details

  • Original title: Experimental analysis of a novel gas-engine-driven heat pump (GEHP) system for combined cooling and hot-water supply.
  • Record ID : 30027699
  • Languages: English
  • Subject: Technology
  • Source: International Journal of Refrigeration - Revue Internationale du Froid - vol. 118
  • Publication date: 2020/10
  • DOI: http://dx.doi.org/10.1016/j.ijrefrig.2020.04.033

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