Litcius/Paper detail

Effect of Hydrogen Blending on the Combustion Performance of a Gasoline Direct Injection Engine

Zhen Fu, Yuhuai Li, Hong Chen, Jiakun Du, Yong Li, Wenzhi Gao

2022ACS Omega19 citationsDOIOpen Access PDF

Abstract

To explore the effect of hydrogen blending on the combustion of a gasoline direct injection engine, a three-dimensional model of the engine is built. The effects of some hydrogen volume fractions (HVFs) and ignition timings (ITs) on the engine performance parameters are studied. Furthermore, the microstructure and mechanism of combustion are analyzed. The simulation results reveal that when the gasoline engine is blended with hydrogen, the active hydroxyl radical concentration increases, and the combustion process is accelerated. When the IT is fixed, with the HVF rising, the peak heat release rate and cylinder pressure will increase. The ignition delay, combustion duration, and crank angle when cumulative heat release reaches 50% decrease. Additionally, the autoignition is shifted to an earlier time as the IT advances. Under the studied conditions with the increase in the HVF, the knock resistance is enhanced because hydrogen has a high knock resistance and octane number.

Topics & Concepts

CombustionAutoignition temperatureOctane ratingHydrogenGasolineMaterials sciencePetrol engineHomogeneous charge compression ignitionIgnition timingGasoline direct injectionHydrogen fuel enhancementEngine knockingIgnition systemInternal combustion engineAutomotive engineeringHydrogen vehicleMean effective pressureCylinderChemistryCompression ratioCombustion chamberThermodynamicsHydrogen fuelEngineeringMechanical engineeringOrganic chemistryPhysicsAdvanced Combustion Engine TechnologiesBiodiesel Production and ApplicationsVehicle emissions and performance