不同温度范围下蒸汽压缩制冷系统的能量和经济分析

Q2 Engineering

Transactions Hong Kong Institution of Engineers Pub Date : 2020-10-30 DOI:10.33430/v27n3thie-2018-0035

Zhili Sun, Cui Qi, Qingzhao Liu, Caiyun Wang, Jiamei Li, Yang Lijie

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引用次数: 0

摘要

为了确定适合不同温度范围的蒸汽压缩制冷系统，本文分别建立了单级省煤器蒸汽压缩制冷系统(SSRS+E)、两级蒸汽压缩制冷系统(TSRS)和叶栅蒸汽压缩制冷系统(CRS)的热力学模型，并对其进行了能量和经济分析。结果表明，在蒸发温度为-20℃和-25℃时，与TSRS相比，SSRS+E分别节能13.6%和7.1%。R744/R717 CRS在能耗和制冷机组投资成本方面优于TSRS。与TSRS相比，R744/R717 CRS在蒸发温度为-45℃和-50℃时分别节能14.1%和18.8%。基于能量和经济分析，SSRS+E推荐在蒸发温度-25℃以上使用。推荐在-45℃~ -25℃蒸发温度范围内使用TSRS，推荐在-45℃蒸发温度以下使用R744/R717 CRS。

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Energetic and economic analysis of vapour compression refrigeration systems applied in different temperature ranges

To determine the suitable vapour compression refrigeration system for different temperature ranges, this paper established thermodynamic models for a single-stage vapour compression refrigeration system with an economiser (SSRS+E), a two-stage vapour compression refrigeration system (TSRS), and a cascade vapour compression refrigeration system (CRS) and conducted an energetic and economic analysis of it. The results show that compared with TSRS, SSRS+E can save energy by 13.6% and 7.1%, in the evaporating temperatures of -20°C and -25°C, respectively. R744/R717 CRS is superior to TSRS in terms of energy consumption and refrigeration unit investment costs. Compared with TSRS, R744/R717 CRS can save energy by 14.1% and 18.8%, in the evaporating temperatures of -45°C and -50°C, respectively. Based on the energetic and economic analysis, SSRS+E is recommended for use above the evaporating temperature of -25°C. TSRS is recommended for use in the evaporating temperature range of -45°C to -25°C, and R744/R717 CRS is recommended for use below the evaporating temperature of -45°C.

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来源期刊

Transactions Hong Kong Institution of Engineers Engineering-Engineering (all)

CiteScore

2.70

自引率

0.00%

发文量