4.6 Article

Experimental study on the operating characteristics of refrigerant pumps for solar ejector refrigeration systems

Journal

SOLAR ENERGY
Volume 239, Issue -, Pages 50-58

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.solener.2022.05.003

Keywords

Solar ejector refrigeration system; Refrigerant pump; Pump performance

Categories

Funding

  1. National Natural Science Foundation of China [52076219]
  2. Young Elite Scientists Sponsorship Program by Henan Association for Science and Technology [2022HYTP012]
  3. Science and Technology Innovation Leader Talent of Henan Province [224200510020]

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A bench performance test was conducted on a refrigerant pump to analyze parameter variations under different working conditions. The results showed that the outlet pressure, differential pressure, and power consumption increased with frequency, while the total efficiency initially increased and then decreased. Under specific conditions, the outlet pressure and differential pressure decreased with increasing flow rates, and the outlet pressure increased with increasing inlet pressures. The pump power consumption increased with flow and inlet pressure, and the total efficiency initially increased and then slightly declined with increasing flow rates.
A bench performance test for a refrigerant pump was built to analyze the variations among parameters such as flow rate, head, rotational speed, efficiency/total efficiency and power consumption of a multistage centrifugal pump under different working conditions. The study showed that the outlet pressure, differential pressure and power consumption of the pump increased with increasing frequencies at the rated flow rate of 1 m3/h and inlet pressure pc = 0.454 MPa. The total pump efficiency showed a trend toward first increasing and then decreasing, and the maximum value was approximately 27.7%. When the refrigerant pump was at a frequency of 37.5 Hz and the inlet pressure was between 0.338 and 0.523 MPa, the pump outlet pressure and differential pressure decreased with increasing flow rates, and the pump outlet pressure increased with increasing inlet pressures. While the pump differential pressure increased with the increase in suction pressure, the pump power consumption increased with the increase in flow and increased slowly with the pump inlet pressure. With the increase in the flow rate, the total efficiency of the pump showed a tendency toward first increasing and then slowly declining. The total efficiency of the pump was between 4.0% and 30.2% at flow rates between 0 and 1.8 m3/h. Under the same conditions, when the pump operated under low flow rate and high pressure differential conditions, and the refrigerant pump efficiency was low.

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