Heat energy storages

System Research in Energy Pub Date : 2023-08-25 DOI:10.15407/srenergy2023.03.004

V. Derii, O. Zgurovets

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Abstract

The article provides an analytical review of thermal energy storage. The reasons determining their demand are shown. It has been established that the market of thermal accumulators is developing quite dynamically. According to the forecast of the International Renewable Energy Agency, the global market for thermal accumulators may triple by 2030 from 234 GWh of installed capacity in 2019 to about 800 GWh in 2030. Investments in the development of thermal accumulators are expected to reach 13–28 billion US dollars. Their capacity for power generation can be 491–631 GWh, for heat supply – 143–199 GWh, for cooling – 23–26 GWh. Bloomberg NEF considers the main drivers of such a sharp increase in energy storage capacity are the US Inflation Reduction Act, which provides for more than $369 billion in financing for clean technologies, as well as the European Union's RE Power EU plan to reduce dependence on gas from Russia. The significant additional storage capacity expected from 2025 in the utility sector is in line with the very ambitious renewable energy targets set out in the REPowerEU plan. The purpose of this review is the search and analysis of thermal energy storage technologies for their possible use in the centralized heat supply of Ukraine. The conducted review showed that the most advanced technology for the accumulation of thermal energy is heat capacity of the material storage. It is the cheapest and most common in centralized heat supply. For short-term storage of heat energy, it is advisable to use storage tanks and main heat networks. Special insulated concrete underground storages of both natural and artificial origin are used for seasonal accumulation of thermal energy. A promising technology for seasonal thermal energy storage is an ice battery developed by the Viessmann company, which requires much less space than the heat capacity of the material storage technology. Thermochemical batteries are in the early stages of development, their demonstration samples may be manufactured by 2050. Keywords: battery, thermal energy, heat capacity, phase transition.

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热能储存

本文对热能储存技术进行了分析综述。说明了决定其需求的原因。研究表明，蓄热器市场的发展是动态的。根据国际可再生能源机构的预测，到2030年，全球蓄热器市场的装机容量可能会从2019年的234gwh增加到2030年的800gwh左右。蓄热器的开发投资预计将达到130 - 280亿美元。发电能力491 ~ 631 GWh，供热能力143 ~ 199 GWh，制冷能力23 ~ 26 GWh。彭博新能源财经认为，储能容量大幅增长的主要驱动因素是美国的《通货膨胀减少法案》(Inflation Reduction Act)，该法案为清洁技术提供了超过3690亿美元的融资，以及欧盟的可再生能源欧盟计划(RE Power EU)，该计划旨在减少对俄罗斯天然气的依赖。预计从2025年起，公用事业部门将增加大量储能容量，这与REPowerEU计划中制定的雄心勃勃的可再生能源目标是一致的。这篇综述的目的是寻找和分析热能储存技术在乌克兰集中供热中的可能应用。研究表明，最先进的热能积累技术是材料储存的热容。它是集中供热中最便宜、最常见的一种。对于短期储存热能，建议使用储罐和主热网。特殊的绝缘混凝土地下储存库用于自然和人工来源的热能的季节性积累。菲斯曼公司开发的冰电池是一种很有前途的季节性热能储存技术，它比材料储存技术所需的空间要小得多。热化学电池正处于发展的早期阶段，它们的示范样品可能在2050年制造出来。关键词:电池，热能，热容，相变。

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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System Research in Energy

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