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Exergy analysis in a HCCI engine operated with diethyl ether-fusel oil blends

Juan Zapata-Mina, Seyed Mohammad Safieddin Ardebili, Álvaro Restrepo, Hamit Solmaz, Alper Calam, Özer Can

2022Case Studies in Thermal Engineering30 citationsDOIOpen Access PDF

Abstract

Homogeneous Charge compression ignition (HCCI) combustion mode is a very interesting new combustion model with high efficiency, low nitrogen oxide (NOx), and soot emissions. In the present investigation, the performance of an HCCI engine operated with three fuel ratios, i.e., 40% diethyl ether and 60% fusel oil (D40F60), 60% diethyl ether and 40% fusel oil (D60F40), and 80% diethyl ether and 20% fusel oil (D80F20), at different lambda values and engine speeds was assessed from exergy indicators. The results indicate that the lambda variation allows observing the best performance zones when operating with fuel blends. From the comparison of the exergy indicators, it is concluded that the highest engine efficiency is obtained when operating with D40F60 at a lambda between 2.1 and 2.2. However, it was determined that the increase of diethyl ether in the blend decreases the HCCI engine performance. Also, greater stability of performance was recorded when operating with D80F20. A higher exergy destruction rate is observed between lambda 3.4 and 3.9 when operating with D80F20. The exergetic efficiency values varied from 5.34% to 23.85%. According to the results obtained, the lowest and highest value of exergy efficiency was recorded for the D80F20 and D40F60, respectively.

Topics & Concepts

Diethyl etherFusel alcoholExergyNOxCombustionExergy efficiencyHomogeneous charge compression ignitionMaterials scienceThrust specific fuel consumptionNitrogen oxideChemistryThermodynamicsCombustion chamberChromatographyPhysicsOrganic chemistryAlcoholAdvanced Combustion Engine TechnologiesVehicle emissions and performanceBiodiesel Production and Applications