Litcius/Paper detail

Experimental investigation on the influence of gasoline injection pressure on the hydrogen knock limit and performance of a hydrogen–gasoline dual fuel engine

S.T.P. Purayil, Salah Addin Burhan Al-Omari, Emad Elnajjar

2024International Journal of Hydrogen Energy11 citationsDOIOpen Access PDF

Abstract

This study experimentally investigated the influence of gasoline injection pressure (GIP) on the performance and hydrogen knock limit of a gasoline direct-injection hydrogen–gasoline dual-fuel engine. The GIP was varied from 50 to 140 bar, and hydrogen was introduced at a step size of 2 LPM until knock onset at spark timings of 4° and 12° CA before top dead center (BTDC). The hydrogen knock limit was extended at a higher GIP, with maximum hydrogen flow rates of 10 and 16 LPM at 12° CA and 4° CA BTDC, respectively. Increasing the GIP and retarding the spark timing negatively affected brake thermal efficiency, brake mean effective pressure , and in-cylinder pressure. The CO 2 and NO x emissions decreased, and the CO emissions increased with an increase in the GIP. The cyclic variation increased considerably with GIP. However, hydrogen blending exhibited a completely opposite trend to that of GIP.

Topics & Concepts

GasolineHydrogenHydrogen vehicleDual (grammatical number)Automotive engineeringLimit (mathematics)Petrol engineEngine knockingHydrogen fuelNuclear engineeringHydrogen fuel enhancementMaterials scienceEnvironmental scienceChemistryHomogeneous charge compression ignitionThermodynamicsInternal combustion enginePhysicsEngineeringCombustionOrganic chemistryMathematicsMathematical analysisArtCombustion chamberLiteratureAdvanced Combustion Engine TechnologiesVehicle emissions and performanceBiodiesel Production and Applications