Abstract
International maritime transport organizations are proposing regulatory actions and strategies aimed at decarbonizing the sector to reduce its greenhouse gas (GHG) emissions, which currently constitute around 3% of the global total. Hybrid propulsion systems have significant potential in this respect, as a means of power-saving in ships. This paper describes a high-fidelity benchmark for hybrid-electric vessels, combining diesel generators and batteries. The benchmark consists of detailed models, the parameters of which are provided so that the models can be reproduced. The proposed hybrid-electric ship topology and control system was validated using real-time hardware-in-the-loop (HIL) simulations on a Typhoon HIL402 platform. The results provide a detailed analysis of the operation of the different components under varying conditions, which should be useful in prototyping these kinds of systems. In addition, the response of the system was evaluated with regard to potential disturbances resulting from the control system’s operation. The results show the system performed correctly during these transitory events, with no undesirable responses.
Highlights
International maritime transport contributed about 2.89% of the total world anthropogenic greenhouse gas (GHG) emissions in 2018, according to the International MaritimeOrganization (IMO) [1]
The proposed architecture was validated in real-time tests using a HIL402 real-time device, which implemented the model at a time-step of 1 μs
This study described the development of a detailed model of a hybrid-electric ship
Summary
International maritime transport contributed about 2.89% of the total world anthropogenic greenhouse gas (GHG) emissions in 2018, according to the International Maritime. To contextualize this data, this means that “if global shipping were a country, it would be the sixth largest producer of greenhouse gas emissions. An intermediate target (in terms of ambition) proposed in the Initial IMO Strategy [4] is to reduce these emissions by at least 40% by 2030 (i.e., returning to 2008 levels). In this context, it is obvious that developing solutions to reduce the fuel consumption of ships is essential to meet this target
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