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Optimization of the Performance of Marine Diesel Engines to Minimize the Formation of SOx Emissions

Mina Tadros, L. Ventura, C. Guedes Soares

2020Journal of Marine Science and Application39 citationsDOIOpen Access PDF

Abstract

Abstract Optimization procedures are required to minimize the amount of fuel consumption and exhaust emissions from marine engines. This study discusses the procedures to optimize the performance of any marine engine implemented in a 0D/1D numerical model in order to achieve lower values of exhaust emissions. From that point, an extension of previous simulation researches is presented to calculate the amount of SO x emissions from two marine diesel engines along their load diagrams based on the percentage of sulfur in the marine fuel used. The variations of SO x emissions are computed in g/kW·h and in parts per million (ppm) as functions of the optimized parameters: brake specific fuel consumption and the amount of air-fuel ratio respectively. Then, a surrogate model-based response surface methodology is used to generate polynomial equations to estimate the amount of SO x emissions as functions of engine speed and load. These developed non-dimensional equations can be further used directly to assess the value of SO x emissions for different percentages of sulfur of the selected or similar engines to be used in different marine applications.

Topics & Concepts

Diesel fuelFuel efficiencyAutomotive engineeringDiesel engineExhaust gas recirculationExhaust gasBrake specific fuel consumptionPoint (geometry)Diesel exhaustOffshore geotechnical engineeringEnvironmental scienceGasolineEngineeringWaste managementMathematicsInternal combustion engineGeotechnical engineeringGeometryMaritime Transport Emissions and EfficiencyAdvanced Combustion Engine TechnologiesBiodiesel Production and Applications
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