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Performance and exergy analysis of a NaBH4/Al coupled hydrolysis hydrogen production solid oxide fuel cell hybrid turbofan system with integrated water circulation

Zhichao Chen, Chaolei Dang, Xiaoge Tan, Chenhao Li, Chan Ha, Jiang Qin, Wei Cheng

2026Renewable Energy7 citationsDOI

Topics & Concepts

ExergyTurbofanSolid oxide fuel cellAutomotive engineeringProcess engineeringExergy efficiencyPropulsionEnvironmental scienceHydrogen fuelCombustionFuel cellsHybrid systemInternal combustion engineElectricity generationProton exchange membrane fuel cellThermal efficiencyAnodeHydrogen fuel enhancementHydrogenElectric powerHydrogen productionPower (physics)Solid fuelHydrogen vehicleComputer scienceElectric power systemHydrogen economyHybrid powerParametric statisticsThermalWaste managementEngineeringBrake specific fuel consumptionNuclear engineeringAmmonia productionHydrogen Storage and MaterialsHybrid Renewable Energy SystemsChemical Looping and Thermochemical Processes
Performance and exergy analysis of a NaBH4/Al coupled hydrolysis hydrogen production solid oxide fuel cell hybrid turbofan system with integrated water circulation | Litcius