纵向通风对三元锂离子电池模块热失控及其传播的影响  

作　　者：韩浩 姜雪 刘旭东[1] 张培红[1] HAN Hao;JIANG Xue;LIU Xudong;ZHANG Peihong(College of Resources and Civil Engineering,Northeastern University,Shenyang 110819,China)

机构地区：[1]东北大学资源与土木工程学院,沈阳110819

出　　处：《清华大学学报(自然科学版)》2025年第3期547-554,共8页Journal of Tsinghua University(Science and Technology)

基　　金：国家自然科学基金面上项目(52074065)。

摘　　要：通风对锂离子电池(lithium-ion battery,LIB)模块热失控(thermal runaway,TR)及其传播的影响具有复杂性。该文构建纵向通风环境,以5块5 Ah三元锂离子电池组成的LIB模块为研究对象,通过改变风速,对比分析电池表面温度、烟气浓度、LIB模块TR传播时间和质量损失率等参数,研究纵向通风对LIB模块TR及其传播的供氧助燃和散热冷却双重作用机制。结果表明:纵向通风对LIB模块TR及其传播的影响由供氧助燃和散热冷却的协同作用决定,主导作用机制随风速不同而不同。在2.0、3.0和4.5 m/s风速下,供氧助燃作用为主导,对LIB模块TR及其传播有促进作用,且促进效果随风速增加而减弱;而在6.0、7.5和9.0 m/s风速下,散热冷却作用为主导,对LIB模块TR及其传播有抑制作用,且抑制效果随风速增加而增强。该文研究结果可为LIB模块的热安全及其在新能源领域的推广应用提供参考。[Objective]With the wide application of lithium-ion battery(LIB)in electronic devices,new energy vehicles,and energy storage power stations,the risk of fire and explosion accidents caused by the thermal runaway(TR)of LIB modules has increased,significantly hindering the development of the new energy industry of LIB.The influence of ventilation on TR and its propagation in LIB modules is complex and requires further investigation.[Methods]This study constructed a longitudinal ventilation environment and used an LIB module composed of five 5 Ah ternary lithium-ion batteries as the experimental object.By varying the wind speed,parameters such as the battery surface temperature,flue gas concentration,TR propagation time,and mass loss rate of LIB modules were compared and analyzed.This approach aims to clarify the dual action mechanism of the oxygen supply for combustion and heat dissipation from longitudinal ventilation on TR and its propagation in the LIB module.[Results]The experiments showed that under wind speeds of 2.0,3.0,and 4.5 m/s,the combustion of the LIB module intensified during the TR process.The average temperature and temperature increased rate of the LIB module,the TR propagation time decreased,and the volume fraction of oxygen and carbon dioxide production increased.The radiant heat flux and mass loss rate of the LIB module were higher compared with nonwind conditions.At wind speeds of 6.0,7.5,and 9.0 m/s,the TR phenomenon of the LIB module gradually weakened with increasing wind speed.At 7.5 and 9.0 m/s,the TR phenomenon did not appear in the initial phase of fire and combustion.The average temperature and temperature rise rate of the LIB module decreased,and the propagation time of TR was effectively extended.During TR,the oxygen volume fraction increased significantly,carbon dioxide production decreased,and the radiant heat flux and mass loss rate of the LIB module were correspondingly lower than those under no-wind conditions.[Conclusions]The results show that the influence of longitudinal ventil

关 键 词：锂离子电池 热失控传播 纵向通风 供氧助燃 散热冷却 

分 类 号：X932[环境科学与工程—安全科学]