Détails Publication
Exergy efficiency applied for the performance optimization of a direct injection compression ignition (CI), engine using biofuels.,
Discipline: Sciences physiques
Auteur(s): Yao Azoumah, Joel Blin, Tizane Daho.
Auteur(s) tagués: DAHO Tizane
Renseignée par : DAHO Tizane
Résumé

The need to decrease the consumption of materials and energy and to promote the use of renewable
resources, such as biofuels, stress the importance of evaluating the performance of engines based on the
second law of thermodynamics. This paper suggests the use of exergy analysis (as an environmental
assessment tool to account wastes and determine the exergy efficiency) combined with gas emissions
analysis to optimize the performance of a compression ignition (CI) engine using biofuels such as
cottonseed and palm oils, pure or blended with diesel for different engine loads. The results show that
the combination of exergy and gas emissions analyses is a very effective tool for evaluating the optimal
loads that can be supplied by CI engines. Taking into account technical constraints of engines, a tradeoff
zone of engine loads (60% and 70% of the maximum load) was established between the gas emissions
(NO and CO2) and the exergy efficiency for optimal performance of the CI engine

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