Techno-economic investigation of alternative propulsion plants for Ferries and RoRo ships

•Alternative Diesel and Gas engine propulsion plants of Ferries and RoRos were studied.•Special focus on marine Natural Gas burning engines and ship waste heat recovery systems.•Significant savings in annual operating costs were predicted in the case of Natural Gas engines.•Environmental and economi...

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Bibliographic Details
Published in:Energy conversion and management 2014-03, Vol.79, p.640-651
Main Authors: Livanos, George A., Theotokatos, Gerasimos, Pagonis, Dimitrios-Nikolaos
Format: Article
Language:English
Subjects:
Applied sciences
Design analysis
Diesel engines
Dual fuel engines
EEDI
Energy
Exact sciences and technology
Ferries
Ferries propulsion plant
Marine engines
Marine propulsion
Power plants
Propulsion
Ships
Techno-economic assessment
Waste heat recovery systems
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Summary:•Alternative Diesel and Gas engine propulsion plants of Ferries and RoRos were studied.•Special focus on marine Natural Gas burning engines and ship waste heat recovery systems.•Significant savings in annual operating costs were predicted in the case of Natural Gas engines.•Environmental and economic optimum propulsion plant alternative was proposed in a specific case study. In this paper, the main alternative propulsion plants based on reciprocating internal combustion engines of a ferry or RoRo ship operating in routes that include Emission Control Areas (ECAs) are comparatively assessed. Specifically, a dual fuel engine propulsion plant is compared with a conventional Diesel engine plant. For both cases, the installation of a waste heat recovery system, which covers a part of the ship electric energy demand, is also considered. The ship main DF engines are assumed to operate using LNG and a small amount of MDO for initiating combustion, whereas low sulphur MDO was regarded as the fuel for the case of the Diesel engine plant. The installation of Selective Catalytic Reduction (SCR) after-treatment unit for reducing the NOx emissions for the case of Diesel engines plant is also taken into account. The propulsion plants were modelled under steady state conditions, and the simulation results were analysed in order to compare the alternative configurations. Furthermore, the Energy Efficiency Design Index (EEDI) values were calculated and the two examined propulsion system cases were compared on EEDI basis. Finally, the Life Cycle Cost for each alternative propulsion plant was calculated and used for completing an economic evaluation of the Dual fuel propulsion plant versus the conventional designs applied in ferries.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2013.12.050