Litcius/Paper detail

Thermal performance enhancement of blade battery packs via multi-branch-converging channel design

Xiaoqing Yang, Xin Zhong, Chuyan Su, Kai Chen, Jiekai Xie

2026International Journal of Heat and Mass Transfer9 citationsDOI

Topics & Concepts

Materials scienceCoolantBattery (electricity)Heat transferTurbulenceWork (physics)MechanicsThermalDissipationNuclear engineeringInletHeat transfer enhancementLeading edgeMechanical engineeringFlow (mathematics)Volumetric flow rateThermal energyComputer coolingHeat pipeWater coolingEvaporative coolerHeat spreaderFinHeat generationPower (physics)Enhanced heat transferChannel (broadcasting)Residence time (fluid dynamics)Blade (archaeology)Turbulence kinetic energyIntensity (physics)Enhanced Data Rates for GSM EvolutionAir coolingHeat transfer coefficientBattery packMass flow rateThermal efficiencyTrailing edgeAdvanced Battery Technologies ResearchPhase Change Materials ResearchElectric and Hybrid Vehicle Technologies
Thermal performance enhancement of blade battery packs via multi-branch-converging channel design | Litcius