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Local energy production scenarios for emissions reduction of pollutants in small-medium ports

Daniele Colarossi, Giuseppe Lelow, Paolo Principi

2022Transportation Research Interdisciplinary Perspectives25 citationsDOIOpen Access PDF

Abstract

Environmental impact produced by ships in ports is a relevant problem, especially when they are located close to urban areas. This paper, taking Ancona (Italy) as a case study, analyzes the CO2 (and other chemical species) emissions produced by the auxiliary engines of ferry ships at berth. Three different configurations have been investigated, one grid-connected and two with local power plants. Cogenerative and photovoltaic scenarios have been considered varying the power size and the presence of a storage system. A computational model, based on maritime traffic and meteorological data over a one-year period, returns the percentages of the energy covered by the plant, the grid and the storage system. Environmental analysis shows that the grid-connected cold ironing scenario reduces the CO2 emissions by 34.5% compared to on-board diesel generators emissions. Cogeneration systems reduce CO2 emissions by 60–62%, while photovoltaic ones around 39%. All scenarios prove to be economically feasible.

Topics & Concepts

CogenerationEnvironmental sciencePhotovoltaic systemDiesel fuelGridProduction (economics)Environmental engineeringPower stationPollutantAutomotive engineeringEnergy storageEnvironmental economicsPower (physics)Electricity generationEngineeringElectrical engineeringQuantum mechanicsMacroeconomicsMathematicsPhysicsOrganic chemistryChemistryEconomicsGeometryMaritime Transport Emissions and EfficiencyMaritime Ports and LogisticsVehicle emissions and performance
Local energy production scenarios for emissions reduction of pollutants in small-medium ports | Litcius