Litcius/Paper detail

High temperature fuel cells to reduce CO<sub>2</sub>emission in the maritime sector

Maurizio Archetti, Emilio Audasso, Bárbara Bosio, Dario Bove

2022E3S Web of Conferences10 citationsDOIOpen Access PDF

Abstract

Recently the interest in the sustainability of the maritime sector has increased exponentially. The International Maritime Organization (IMO) set as objective the reduction of CO 2 emissions by 2030 by a margin of 40% compared to 2008. Recent studies showed that, according to the ships and the emission mitigation method applied, only 15–25% of CO 2 reduction is de facto needed. Fuel cells represent an answer to meet this regulation. We propose two different solutions: (i) produce with SOFCs instead of engines the minimum power necessary to cut 20% of the emissions, or (ii) reduce the engine power of about 10% balancing the power requirement using MCFCs with CO 2 capture. Using Aspen Plus each solution was investigated. The analysis contemplated LNG steam reforming to produce the H 2 necessary for cell operation and the separation and liquefaction of CO 2 . Two case studies were considered comparing existing passenger ships with engines working on HFO and on LNG respectively. Although both solutions showed potential for the reduction of CO 2 emissions respecting the IMO regulations, the SOFC solution requires a major change in the design of the ship, while MCFCs are proposed as an urgent solution allowing ship retrofitting without demanding update.

Topics & Concepts

RetrofittingReduction (mathematics)Fuel cellsWaste managementLiquefactionEnvironmental scienceProcess engineeringEngineeringChemical engineeringMathematicsStructural engineeringGeotechnical engineeringGeometryMaritime Transport Emissions and EfficiencySpacecraft and Cryogenic TechnologiesHybrid Renewable Energy Systems