Experimental Investigation on Working Pairs for a Two-stage Sorption Refrigeration Cycle

Jiang Long; Lu Huitong; Wang Ruzhu; Wang Liwei

doi:10.3969/j.issn.0253-4339.2017.06.007

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Experimental Investigation on Working Pairs for a Two-stage Sorption Refrigeration Cycle

更新时间：2024-07-18

- Experimental Investigation on Working Pairs for a Two-stage Sorption Refrigeration Cycle
- Journal of Refrigeration Vol. 38, Issue 6, (2017)
- 作者机构：
  
  上海交通大学制冷与低温工程研究所
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2017.06.007
  CLC：
- Published：2017
- 稿件说明：
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Jiang Long, Lu Huitong, Wang Ruzhu, et al. Experimental Investigation on Working Pairs for a Two-stage Sorption Refrigeration Cycle[J]. Journal of refrigeration, 2017, 38(6).
DOI：

Jiang Long, Lu Huitong, Wang Ruzhu, et al. Experimental Investigation on Working Pairs for a Two-stage Sorption Refrigeration Cycle[J]. Journal of refrigeration, 2017, 38(6). DOI： 10.3969/j.issn.0253-4339.2017.06.007.

摘要

本文针对不同两级吸附工质对CaCl2-NaBr-NH3

CaCl2-BaCl2-NH3

SrCl2-BaCl2-NH3与 SrCl2-NH4Cl-NH3进行了实验研究，同时模拟了两级吸附制冷样机的工作性能。结果表明：SrCl2-NH4Cl-NH3与CaCl2-NaBr-NH3的循环吸附量可以分别达到理论值的95.4%与88.6%；对于不同两级吸附工质对，样机系统的COP、制冷量与SCP分别介于0.215~0.285、2~3.65 kW与161.4~260.74 W/kg；采用硫化石墨配置吸附剂能够大幅度提高两级制冷系统的SCP，以CaCl2-BaCl2-NH3为例，与采用普通石墨作为基质相比，采用硫化石墨的系统SCP最高可以提高40.2%。

Abstract

Recently

a CaCl2-BaCl2-NH3 chemisorption freezing cycle driven by a low-temperature heat source has drawn an increasing amount of attention. To develop a working pair with a more desirable performance than CaCl2-BaCl2-NH3

working pairs of CaCl2-NaBr-NH3

SrCl2-BaCl2-NH3

and SrCl2-NH4Cl-NH3 were investigated and compared. Most composite adsorbents were developed with a novel matrix of expanded natural graphite treated with sulfuric acid (ENG-TSA)

leaving one serial with expanded natural graphite (ENG) for comparison. For SrCl2-NH4Cl-NH3 and CaCl2-NaBr-NH3

experimental results show that the maximum adsorption quantities are 95.4% and 88.6% of the theoretical values

respectively. Simulation results indicate that the best results are obtained from CaCl2-NaBr-NH3

and its specific cooling power (SCP) and coefficient of performance (COP) are as high as 260.74 W/kg and 0.285

respectively

which are 15.1% and 5.6% better than the values for CaCl2-BaCl2-NH3. It is also noted that

for different working pairs

the COP

cooling capacity

and SCP range from 0.215 to 0.285

2 to 3.65 kW

and 161.4 to 260.74 W/kg

respectively. Comparisons also show that the ENG-TSA matrix effectively improves the SCP. For example

the SCP of CaCl2-BaCl2-NH3 is improved by 40.2%

when compared with a working pair with the ENG matrix.

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Related Institution

Institute of Refrigeration and Cryogenics, Zhejiang University

Institute of Energy and Environment, NingboTech University

北京工业大学制冷与低温工程系

西安交通大学能源与动力工程学院

The Tianjin Key Laboratory of Refrigeration Technology, Tianjin University of Commerce

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