An initial evaluation of humidified discharge cycle for liquid air energy storage

IOP Conference Series: Earth and Environmental Science Pub Date : 2024-07-31 DOI:10.1088/1755-1315/1380/1/012004

Ana Borissova, Kaloyan Hristov and Dimityr Popov

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Abstract

The research community is becoming more interested in liquid air energy storage among the leading innovative technologies for long duration and grid-scale energy storage. Practical Uses of liquid air energy storage are currently somewhat limited, though, mostly due to the intricate design of LAES plants and the poor “roundtrip efficiency” that is the ratio of the energy recovered from the LAES system during the discharge cycle to the total energy input. With so many components already present in the LAES plant, nearly every research project underway adds even more complexity to the mix. The objective of the work that is being presented aims to increase the use of the heat of compression that has been stored during the charging without adding additional complexity. A mixture of water vapour and air, or humidified air, serves as the working fluid in the presented concept. Thermodynamic performance of the proposed discharge configuration is evaluated and compared on a consistent basis with the stand alone LAES system. The results demonstrate significant increase in the roundtrip efficiency.

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用于液态空气储能的加湿放电循环初步评估

液态空气储能是用于长时间和电网规模储能的领先创新技术，研究界对液态空气储能越来越感兴趣。不过，液态空气储能的实际用途目前还比较有限，这主要是由于液态空气储能设备设计复杂，"往返效率 "较低，而 "往返效率 "是指在放电循环期间从液态空气储能系统回收的能量与总输入能量之比。由于 LAES 发电站中已有如此多的组件，几乎所有正在进行的研究项目都会增加其复杂性。目前正在进行的工作旨在提高充注过程中存储的压缩热的利用率，而不会增加额外的复杂性。水蒸气和空气或加湿空气的混合物是该概念中的工作流体。对所提出的排放配置的热力学性能进行了评估，并与独立的 LAES 系统进行了比较。结果表明，往返效率显著提高。

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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来源期刊

IOP Conference Series: Earth and Environmental Science

CiteScore

1.00

自引率

0.00%

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