Performance of a CO2 water to water heat pump with less charge: Inlet temperature effects

2015 International Conference on the Industrial and Commercial Use of Energy (ICUE) Pub Date : 2015-10-01 DOI:10.1109/ICUE.2015.7280275

P. Maina, Z. Huan

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引用次数: 1

Abstract

A CO2 water to water heat pump system was used to investigate the effects of cooling and chilling water inlet temperature at reduced charge capacity (approximately 75% of the full charge). The temperature were adjusted between 10 °C to 30 °C in nine steps while the throttle valve opening adjusted between 100%, 50% and 25%. It was observed that the as the cooling water inlet temperature increased, the heat output and general performance of the system diminished but as the chilling water temperature increased, there was an improvement of the system performance. Therefore, the best temperature combination was cooling - chilling water temperature of 10 °C - 30 °C. The opposite, i.e. cooling - chilling water temperature of 30 °C - 10 °C was the worst. Nevertheless, the effects of the cooling water temperature were higher on the system performance than the effect of the chilling water temperature. These observations were true in all throttle valve settings, where, the smaller the throttle valve opening, the higher the performance.

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低负荷CO2水对水热泵的性能:入口温度的影响

使用CO2水对水热泵系统来研究在降低充能(约为满充能的75%)时冷却水和冷水进口温度的影响。温度在10°C至30°C之间分9步调节，节流阀开度在100%，50%和25%之间调节。结果表明，随着冷却水入口温度的升高，系统的输出热量和总体性能下降，但随着冷却水入口温度的升高，系统性能有所改善。因此，最佳温度组合为冷却-冷却水温度10℃- 30℃。相反，即冷却-冷却水温度为30°C - 10°C是最差的。冷却水温度对系统性能的影响大于冷却水温度对系统性能的影响。这些观察结果在所有节流阀设置中都是正确的，其中节流阀开度越小，性能越高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Conference on the Industrial and Commercial Use of Energy (ICUE)

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