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Modeling and dynamic response optimization of high-power vehicle fuel cell hydrogen supply system based on novel composite adjustable ejector

Jiangkun Zou, Jing Li, Ke‐Yong Wang, Zheng Huang, Huatao Jin, Zhongjun Hou

2025Energy Conversion and Management7 citationsDOI

Topics & Concepts

InjectorHydrogenAutomotive engineeringComposite numberCommon railProton exchange membrane fuel cellHydrogen vehicleMaterials scienceAnodeVolume fractionNuclear engineeringControl systemControl theory (sociology)Volumetric flow rateProcess engineeringEnvironmental scienceFuel injectionEngineeringPID controllerHydrogen fuelResponse timeCurrent (fluid)Computer scienceTest benchGas compressorVolume (thermodynamics)Solid oxide fuel cellModel predictive controlVoltagePositive displacement meterHydrogen fuel enhancementRefrigeration and Air Conditioning TechnologiesAdvanced Combustion Engine TechnologiesElectric and Hybrid Vehicle Technologies
Modeling and dynamic response optimization of high-power vehicle fuel cell hydrogen supply system based on novel composite adjustable ejector | Litcius