高海拔环境下集装箱式储能系统的热分析及优化  

Thermal Analysis and Optimization of Container-type Energy Storage System Under High-altitude Environment

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作  者:向嘉强 何琦 郭振兴 周丰 魏继军 Xiang Jiaqiang;He Qi;Guo Zhenxing;Zhou Feng;Wei Jijun(Huadian Fuxin(Yajiang)Energy Development Co.,Ltd.,Yajiang,China)

机构地区:[1]华电福新(雅江)能源发展有限公司,四川雅江

出  处:《科学技术创新》2025年第8期48-51,共4页Scientific and Technological Innovation

摘  要:本研究针对高海拔环境下集装箱式储能系统的热分析及优化进行了系统设计,通过细致的热量管理方案,有效控制了集装箱内部的热量。系统由20尺的集装箱构成,采用高效的热管理方案来有效控制热量。在热管理方面,通过冷却管道结构优化,提高了散热性能,确保每个电池箱都能得到均匀的冷却效果。研究还采用了空调控制策略,根据实时温度条件自动切换至制热模式或制冷模式,确保电池在最佳工作温度范围内运行。通过智能的温度控制策略,提高了系统的可靠性和稳定性,延长了电池的使用寿命。经过优化分析和设计调整,集装箱式储能系统在高海拔环境下的热管理能力得到了显著提升,系统的稳定性和可靠性也得到了有效保障。This study designs the thermal analysis and optimization of the container energy storage system in the high altitude environment,and the heat inside the container is effectively controlled through the detailed heat management scheme.The system consists of 20 feet of containers with an efficient thermal management scheme to effectively control the heat.In terms of thermal management,the cooling dissipation performance is improved by optimizing the cooling pipe structure to ensure that each battery box can get a uniform cooling effect.The study also adopted an air conditioning control strategy to automatically switch to the heating mode or cooling mode according to the real-time temperature conditions to ensure that the battery operates within the optimal operating temperature range.Through the intelligent temperature control strategy,the reliability and stability of the system are improved,and the service life of the battery is extended.After optimization analysis and design adjustment,the thermal management capability of the container-type energy storage system in the high altitude environment has been significantly improved,and the stability and reliability of the system have been effectively guaranteed.

关 键 词:集装箱式储能系统 热分析 系统优化 

分 类 号:TM91[电气工程—电力电子与电力传动]

 

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