新型储能技术进展与挑战I:电化学储能技术OA
PROGRESS AND CHALLENGES IN NOVEL ENERGY STORAGE TECHNOLOGIES I:ELECTROCHEMICAL ENERGY STORAGE
新型储能技术日益成为中国建设新型能源体系和新型电力系统的关键技术,已成为中国经济发展的新动能,将在促进可再生能源消纳、实现能源体系转型、提高能源利用效率、减少环境污染等方面发挥重要作用,相关技术研究也在快速发展.开展了该领域的系列评价性综述工作,分为电化学储能技术、物理储能与储热技术、储能集成与规划 3 个部分,对各类新型储能技术的应用领域、最新研究进展及局限性等问题进行了全面系统的对比分析,并进一步探讨了储能集成、安全、规划调度等储能系统相关领域面临的挑战及发展趋势.第 1 部分为电化学储能技术,重点对锂离子电池、钠离子电池、液流电池、固态电池和水系电池的技术与工程的相关成果进行了综合分析与讨论.电化学储能技术具有灵活配置的特点,可以满足不同功率和能量的应用需求,锂离子电池技术的成熟度最高,在储能市场占有主体地位,未来进一步发展集中于系统集成和安全技术方面,以推进更大规模的商业化应用.其他一些尚处于基础研究阶段的电池技术也展现出了巨大的发展潜力,比如:固态电池具有更高的安全性,钠离子电池具有优越的低温性能,液流电池具有较长的循环寿命等.
Novel energy storage technology is increasingly becoming a key technology for building a new type energy system and a new type power system in China,and has become a new driving force for China's economic development.It will play an important role in promoting the consumption of renewable energy,achieving energy system transformation,improving energy utilization efficiency,reducing environmental pollution,and related technological research is also developing rapidly.A series of review paperwork are conducted,which are divided into three parts:electrochemical energy storage technology,physical energy storage and thermal storage technology,energy storage integration and planning.A comprehensive and systematic comparative analysis is conducted on the application fields,latest research progress,and limitations of various novel energy storage technologies.Furthermore,the challenges and development trends faced by energy storage system related fields such as energy storage integration,security,planning and scheduling are further explored.This paper is the first part of the review work,which focuses on the comprehensive analysis and discussion of the relevant achievements in the technology and engineering of electrochemical energy storage technology,including lithium-ion batteries,sodium-ion batteries,flow batteries,solid-state batteries,and aqueous batteries.Electrochemical energy storage technology has the characteristic of flexible configuration,which can meet the application needs of different powers and energies.Lithium-ion battery technology has the highest maturity and occupies a dominant position in the energy storage market.In the future,further development will focus on system integration and safety technology to promote larger scale commercial applications.Other battery technologies that are still in the basic research stage have also shown enormous development potential,such as solid-state batteries with higher safety,sodium-ion batteries with superior low-temperature performance,and flow batteries with longer cycle life.
巨星;廖志荣;杜小泽;徐超;郝俊红;宋记锋;滕伟;田华军;赵海森;陈哲;王天虎
华北电力大学新型储能技术北京实验室,北京 102206
能源与动力
储能技术电化学储能锂离子电池钠离子电池液流电池固态电池水系电池
energy storage technologyelectrochemical energy storagelithium-ion batteriessodium-ion batteriesflow batteriessolid-state batteriesaqueous batteries
《太阳能》 2024 (007)
98-108 / 11
国家自然科学基金创新研究群体项目(51821004)
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