Litcius/Paper detail

Numerical characterization of high-pressure hydrogen jets for compression–ignition engines applying real gas thermodynamics

Nick Diepstraten, Bart Somers, J.A. van Oijen

2024International Journal of Hydrogen Energy12 citationsDOIOpen Access PDF

Abstract

The development of hydrogen-fueled direct-injection compression–ignition engines requires adequate models that can accurately predict the spatial development and heat release rate of a jet at high pressure. It is found in literature that the combustion process benefits from minimizing flame–wall interaction, but it is unresearched how to achieve this. Jet theory can greatly reduce research efforts, only its validity is uncertain for hydrogen injections at relevant conditions. This work checks the validity via a parametric study performed with Computational Fluid Dynamics simulations. Sonic conditions are imposed at the nozzle exit, using different equations of state. It is found that real gas behavior needs to be used to compute these conditions and to model the jet dynamics. Furthermore, jet theory shows qualitative agreement with the simulation results. Finally, the heat release rate of a multi-hole injector appears insensitive to injection properties, but jet penetration can be controlled.

Topics & Concepts

InjectorNozzleCombustionIgnition systemMechanicsThermodynamicsJet (fluid)HydrogenParametric statisticsWork (physics)Compression (physics)Computational fluid dynamicsSupersonic speedHydrogen vehicleMaterials sciencePhysicsChemistryHydrogen fuelMathematicsOrganic chemistryStatisticsQuantum mechanicsAdvanced Combustion Engine TechnologiesCombustion and flame dynamicsHeat transfer and supercritical fluids