Litcius/Paper detail

Novel thermal management design for batteries using PCM and immersion cooling for controlled recovery time under high ambient temperatures

Vanita A. Wagh, Sandip K. Saha

2025Journal of Energy Storage6 citationsDOI

Topics & Concepts

Materials scienceHeat transferHeat transfer coefficientImmersion (mathematics)Phase-change materialNuclear engineeringThermal conductivityThermalBattery (electricity)Coefficient of performanceThermal resistanceComputer coolingComposite materialEnhanced heat transferThermal management of electronic devices and systemsCopperAutomotive engineeringLatent heatThermal energy storageMechanical engineeringLimitingThermal analysisWater coolingCooling capacityBattery packHeat sinkOperating temperatureThermodynamicsHeat transfer enhancementFinHeat generationCooling loadComputer simulationVolume (thermodynamics)Heat spreaderAdvanced Battery Technologies ResearchPhase Change Materials ResearchAdvanced Battery Materials and Technologies
Novel thermal management design for batteries using PCM and immersion cooling for controlled recovery time under high ambient temperatures | Litcius