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Exergoeconomic analysis of a lean burn engine operating with ethanol and hydrogen addition

Sami Massalami Mohammed Elmassalami Ayad, Carlos Rodrigues Pereira Belchior, José Ricardo Sodré

2024International Journal of Hydrogen Energy10 citationsDOIOpen Access PDF

Abstract

This research applies exergy and exergoeconomic analyses to a turbocharged ethanol-fuelled engine enriched with hydrogen to operate in lean mixture conditions. Utilizing simulation data, the study examines the impacts of up to 6% of hydrogen fraction in the fuel for engine operation in the lean range from stoichiometric to fuel/air mixture equivalence ratio 0.7 are investigated. The exergy analysis revealed that hydrogen enrichment in lean operation can improve global exergy efficiency by nearly 30%. This improvement in efficiency was accompanied by significant reductions in exergy destruction and heat-based exergy transfer. The exergoeconomic evaluation indicated that hydrogen energy density and lean operation can reduce the fuel cost rate by up to 23%. The best operational scenario produced 29% decrease in specific exergoeconomic cost of electricity generation and 31% reduction in total losses.

Topics & Concepts

Lean burnEthanolHydrogenChemistryAutomotive engineeringEngineeringOrganic chemistryCombustionNOxThermodynamic and Exergetic Analyses of Power and Cooling SystemsAdvanced Combustion Engine TechnologiesRefrigeration and Air Conditioning Technologies