The application of transcritical CO2 system with ejector in large cold store

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The application of transcritical CO2 system with ejector in large cold store

更新时间：2025-01-15

- The application of transcritical CO2 system with ejector in large cold store
- Journal of Refrigeration (2025)
- 作者机构：
  
  青岛海尔开利冷冻设备有限公司,青岛,266500
- 作者简介：
- 基金信息：
- DOI：
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The application of transcritical CO2 system with ejector in large cold store. [J/OL]. Journal of refrigeration, 2025.
DOI：

The application of transcritical CO2 system with ejector in large cold store. [J/OL]. Journal of refrigeration, 2025. DOI：

摘要

CO2作为一种天然制冷剂

具有环境友好性

安全性和高单位容积制冷量高等优势

因此CO2跨临界系统在大型冷库中的应用有助于提高能源利用效率

减少碳排放

促进环境保护。本文基于大型冷库的应用场景

综合考虑不同温区的负荷需求

以及不同的气象条件

通过全年逐时能耗分析

获得了带喷射器跨临界CO2系统在特定运行条件下的性能表现和能耗特性。结果表明

结果表明

集成了特定优化设计喷射器的CO2跨临界系统

在低温冷库(-32°C)、中温冷库(-8°C)和高温冷库(0°C)的大型冷库中

与传统R507系统相比

可实现7.9%、10.1%和10.5%的节能效果；作为对照

R717系统比R507系统分别节能8.1%

2.7%和7.2%；

R717系统在低温区冷库的节能率略高于CO2系统；但在中高温区；CO2系统的优势更加明显。考虑不同气候区域的影响

CO2系统在寒冷气候区域的节能效率可达9.3%

优于R717系统；而在炎热气候区域

其节能效率降至2.8%

略低于R717。合理选用温区和气候区域

CO2跨临界系统的整体运行效率和节能性能可优于R717系统。本文通过对CO2系统的能耗分布规律进行全面分析

指出其在不同应用场景下的适用性

为该系统的推广应用提供了重要参考。总之

带喷射器的跨临界CO2制冷系统应用于大型冷库

可显著减少直接和间接的碳排放

降低总体能耗

对实现双碳目标具有重要意义。

Abstract

As a natural refrigerant

CO2 has advantages such as environmental friendliness

safety and high volume cooling capacity. Therefore

the application of transcritical CO2 systems in large cold storages will improve energy efficiency

reduce carbon emissions and promote environmental protection. The performance and energy consumption characteristics of different refrigeration systems were compared through a comprehensive annual hourly energy consumption analysis

based on different temperature range cold storage demand and various climate conditions. The results show that the transcritical CO2 system integrated with specifically optimized ejector can achieve energy savings of 7.9%

10.1% and 10.5% in for low temperature (-32°C)

medium temperature (-8°C) and high temperature (0°C) cold storages compared with the traditional R507 system; the energy saving of R717 system is 8.1%

2.7% and 7.2% compared with the R507 system

respectively. The energy saving of the R717 system is slightly higher than that of the CO2 system in the low temperature cold storage

but the advantages of the CO2 system are more obvious in the medium and high temperature cold storage. Considering the influence of different climate zones

the energy saving of the CO2 system can reach 9.3% in the cold climate zone

better than the R717 system; while in the hot climate zone

its energy saving drops to 2.8%

slightly lower than that of R717. With appropriate selection of temperature range and climate zone

the overall operation efficiency and energy saving performance of the transcritical CO2 system can be better than the R717 system. This paper conducts a comprehensive analysis on the energy consumption distribution characteristic of the CO2 system

and points out its applicability in different application scenarios

providing important references for the promotion and application of the system. In conclusion

the application of transcritical CO2 refrigeration system with ejector in large cold storage

can significantly reduce both direct and indirect carbon emissions

decrease overall energy consumption

will play great role in achieving dual carbon goals.

关键词

CO2 跨临界系统喷射器冷库节能碳减排

Keywords

CO2 transcritical systemejectorcold storageenergy savingCO2 emission reduction

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Related Author

Zhang Yi

Cui Siqi

Bai Jing

Zheng Huifan

Li Wenlong

He Yang

Deng Jianqiang

Fu Bing

Related Institution

School of Energy & Environment, Zhongyuan University of Technology

School of Chemical Engineering and Technology, Xi′an Jiaotong University

Zhejiang Xinjin Air Conditioning Equipment Co., Ltd.

School of Energy and Power Engineering, University of Shanghai for Science and Technology

Institute of Refrigeration and Cryogenics, Zhejiang University

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