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Numerical analyses on performance of low carbon containership

Li Chin Law, Mohd Roslee Othman, Epaminondas Mastorakos

2023Energy Reports18 citationsDOIOpen Access PDF

Abstract

Onboard Carbon Capture and Storage (OCCS) was found to be a potential approach for maritime decarbonization. By using the optimized OCCS, 90% carbon capture rate was achieved with a lower regeneration duty of 3,637 MJ/ton CO2. It was also found that with integration of waste heat recovery (WHR), the regeneration duty of CCS can be further reduced by 58.5% to 1,510 MJ/ton CO2. Detailed numerical analyses on CCS-Ship showed that the OCCS installation onboard of the reference ship used less than 15% of the total ship length. In contrast, the E-Ship would occupy 80% of deck area for battery installation. In addition, the CSS-Ship was found to retain 97.73% of cargo, consume 66.94 kJ/ton.nm of ES, incur $0.00093/ton.nm of CS, and improve the attained EEDI to 0.49 gCO 2/ton.nm, which improved the ship EEDI by 88% as compared to the ship built in year 2000-2010. Numerical analyses between various alternative fuelled-ships showed that the ship with CCS installation (CCS-Ship) was at least 1 time and 12 times more economical than hydrogen fuelled-ship (H2-Ship) and electrically propelled-ship (E-Ship) respectively. The data obtained from this research suggest that OCCS is a promising decarbonization alternative for shipping industry with relatively low cost, less than 3% capacity loss and that it achieved 88% of EEDI improvement.

Topics & Concepts

TonMarine engineeringDeckEnvironmental scienceHullEngineeringEnvironmental engineeringWaste managementStructural engineeringFisheryBiologySpacecraft and Cryogenic TechnologiesMaritime Transport Emissions and EfficiencyHybrid Renewable Energy Systems
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