储能科学与技术2024,Vol.13Issue(2):515-525,11.DOI:10.19799/j.cnki.2095-4239.2023.0580
基于电池箱体开孔的储能电池系统精细化热设计优化研究
Refined thermal design optimization of energy storage battery system based on battery box openings
摘要
Abstract
This study addresses the issue of neglecting the impact of internal battery cell structures on the thermal performance of energy storage battery systems in current thermal management simulation studies.This study introduces a refined thermal design concept,proposing a temperature uniformity distribution approach based on perforations in the battery pack enclosure.This study utilizes computational fluid dynamics simulation methodology to comprehensively assess the influence of perforation sizes and quantities on battery thermal performance.Subsequently,optimized designs for the battery enclosure are selected.The research findings reveal that,in optimizing individual battery enclosures,superior performance is achieved by introducing perforations on the lateral walls rather than the upper surface.This advantageous strategy reduces the temperature difference within a single battery from a prior 6.01 to 3.68 K,resulting in a substantial 28.2%decrease and effectively meeting the heat dissipation requirements of the battery.Moreover,at the scale of the entire battery stack,the implementation of lateral wall perforations leads to a substantial reduction in the maximum temperature difference within a single column of battery cells from 7.66 K to 4.32 K,representing an impressive enhancement of 43.6%.Through a coupled thermal analysis of the external air ducts and the internal structure of the battery pack,this study provides valuable insights for future thermal management strategies in energy storage battery systems.关键词
储能电池/温差/开孔/热管理/电池芯Key words
energy storage battery/temperature difference/opening pore/heat dissipation/battery cell分类
信息技术与安全科学引用本文复制引用
徐鑫甜,张碧霄,朱信龙,杨凯杰..基于电池箱体开孔的储能电池系统精细化热设计优化研究[J].储能科学与技术,2024,13(2):515-525,11.基金项目
飞行器环境控制与生命保障工信部重点实验室开放课题项目(KLAECLS-E-202201). (KLAECLS-E-202201)
