Microcalorimetry Analysis of Thermal Runaway Process in Lithium-ion Batteries
With the vigorous development and large-scale applications of the global new energy vehicles,lithium ion battery(LIB)as the key components of electric vehicles has attracted extensive attention and research.While many urgent problems such as increasing energy density of LIB to alleviate range anxiety,developing fast charging strategy to shorten the drivei's waiting time and prolonging LIB cycle life are to be solved.Especially the frequent thermal runaway incidents of LIB electric vehicles seriously affect the safety of passengers and the promotion of new energy vehicles.In order to understand the com-plex thermal reactions during thermal runaway occurrence,scanning calorimeter(C80 microcalorimeter)has been proposed to analyze the thermal behavior of different full cell systems,including positive electrodes,negative electrodes,separator and electrolyte of LiFePO4(LFP),Li[NiCoMn]O2(NCM)and LFP/NCM hybrid LIB.A deconvolution method is used to calcu-late heat generation based on specific electrode according to the deconvoluted data.Anode-electrolyte biphasic system at different state of charge(SOC),anode single-phase system,cathode-electrolyte biphasic system and LFP/NCM hybrid full cells without electrolyte are also studied to reveal detailed steps and specific heat generation during thermal runaway mecha-nism.According to the analysis,thermal runaway reactions of LIB full cells are comprised by the anode-electrolyte(130~200 ℃),anode-NCM(200~240 ℃)and anode-LFP(240~300 ℃).Additionally,in the case of injection co-efficient of commercial LIB,electrolyte will be used up during anode-electrolyte reaction.Then the leftover Li in anode subsequently react with cathode and the remaining decomposition of cathode will stop producing heat.Although the residual positive elec-trode material may still release oxygen due to structural collapse,the heat will not increase significantly due to the lack of negative electrodes or electrolytes that react with it.These results are crucial to reveal the internal mechanism of thermal reactions in LIB,providing the foundation of different battery systems applying to electric car.
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