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Effects of hydrogen and EGR on energy efficiency improvement with ultra low emissions in a common rail direct injection compression ignition engine fueled with dimethyl ether (DME) under HCCI mode

Anilkumar Shere, K.A. Subramanian

2023International Journal of Hydrogen Energy32 citationsDOIOpen Access PDF

Abstract

This study deals with enhancing the energy efficiency with ultra-low emissions and extending the operating range (maximum load limit) of dimethyl ether (DME) fueled homogeneous charge compression ignition (HCCI) engine using hydrogen and exhaust gas recirculation (EGR). In the neat DME mode, the possible maximum load limit with controlled auto-ignition (CAI) was found as 24% (BMEP of 1.67 bar). Beyond 24% load, the knocking was observed with an advanced combustion phase, and shortened combustion duration resulted in uncontrolled auto-ignition (UAI) combustion. The addition of EGR extended the maximum load limit to 52% (BMEP of 3.62 bar) (60% EGR). Near-zero levels of NO x , zero smoke, and marginal CO and HC emissions reduction were observed with the optimized EGR rate (35%). The hydrogen fuel addition along with DME at an optimized EGR rate resulted in combustion phase retardation with the elimination of the low-temperature reaction (LTR) region. The energy efficiency (EE) and indicated thermal efficiency (ITE) increased along with zero smoke emission, ultra-low NO x , CO, and HC, and lower CO 2 emissions till 12% of hydrogen energy share (HES). Thus, the combined strategy of EGR and hydrogen could effectively extend the operating range with ultra-low emissions levels.

Topics & Concepts

NOxHomogeneous charge compression ignitionCombustionMean effective pressureHydrogenExhaust gas recirculationIgnition systemDimethyl etherThermal efficiencyMaterials scienceAutomotive engineeringChemistryCompression ratioCombustion chamberThermodynamicsPhysicsMethanolOrganic chemistryEngineeringAdvanced Combustion Engine TechnologiesVehicle emissions and performanceCatalytic Processes in Materials Science
Effects of hydrogen and EGR on energy efficiency improvement with ultra low emissions in a common rail direct injection compression ignition engine fueled with dimethyl ether (DME) under HCCI mode | Litcius