Litcius/Paper detail

Hydrogen fuel cell aircraft for the Nordic market

Christian Svensson, Amir Antônio Martins Oliveira, Tomas Grönstedt

2024International Journal of Hydrogen Energy17 citationsDOIOpen Access PDF

Abstract

A model for a fuel cell propelled 50 PAX hydrogen aircraft is developed. In terms of year 2045 Nordic air travel demand this aircraft is expected to cover 97% of travel distances and 58% of daily passenger volume. Using an ATR 42 as a baseline, cryogenic tanks and fuel cell stacks are sized and propulsion system masses updated. Fuselage and wing resizing are required, which increases mass and wetted area. Sizing methods for the multi-stack fuel cell and the cryogenic tanks are implemented. The dynamic aircraft model is updated with models for hydrogen consumption and tank pressure control. For the Multi-layer insulation (MLI) tank a trade study is performed. A ventilation pressure of 1.76 bar and 15 MLI layers are found to be optimal for the design mission. A return-without-refuel mission is explored, where for a 10-hour ground hold 38.4% of the design range is retained out of the theoretically achievable 50%.

Topics & Concepts

FuselageAircraft fuel systemStack (abstract data type)Environmental scienceSizingRange (aeronautics)Hydrogen vehicleFuel efficiencyAutomotive engineeringThrust specific fuel consumptionPropulsionHydrogenAerospace engineeringGasolineHydrogen fuelNuclear engineeringMarine engineeringEngineeringComputer scienceCombustionChemistryWaste managementCombustion chamberVapor lockProgramming languageOrganic chemistryAdvanced Aircraft Design and TechnologiesAdvanced Combustion Engine TechnologiesRocket and propulsion systems research