Friday, 11 July 2025 | 11:47
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Longitude and Innovate UK unlock AI potential in ship powertrain design

Friday, 11 July 2025 | 00:00

A recently completed study to assess the potential of artificial intelligence (AI) in the design of ship powertrains, shows that AI can significantly assist and accelerate the ship design process but cannot wholly displace the role of naval architects.

This project is part of the Smart Shipping Acceleration Fund (SSAF) Competition, funded by the UK Department for Transport (DfT) and delivered by Innovate UK. SSAF is part of the Department’s UK Shipping Office for Reducing Emissions (UK SHORE) programme, a £206m initiative focused on developing the technology necessary to decarbonise the UK domestic maritime sector.

Longitude was the lead partner in the project consortium comprising the University of Birmingham, DNV, Steamology and Chartwell Marine, with support from North Star Shipping.

“This collaborative AI study marks a strategic leap in ship powertrain design. It shows that AI tools can assess multiple objective functions far quicker than a human with conventional design tools. However, training the AI requires a large amount of input from naval architects and equipment vendors. With a fully trained tool, removing repetitive iterative calculations will allow naval architects time for greater creativity,” says Richard Featherstone, head of design engineering at Longitude.

Several alternative fuel choices

The study’s starting point was the acknowledgement that the plethora of alternative fuel choices present risks and uncertainty to ship owners, whilst contemporary ship design methodologies struggle to assess the multiple objective functions that an owner may wish to understand.

Additionally, digital twins of in-service vessels are gathering increasing amounts of data which contemporary design methodologies struggle to interrogate.

The project therefore took the operational data from one of the North Star service operation vessels (SOVs) and used AI to assess a set of different powertrain options against three objective functions: CAPEX, OPEX and emissions (carbon intensity indicator).

Longitude assisted the University of Birmingham in training the AI tool, applying its knowledge in ship design and alternative fuels to set parameters such as weight, space, regulatory constraints.

Four SOV variants

The outputs of the AI tool were used to develop preliminary designs of four SOV variants;

Methanol fuel storage – methanol to hydrogen reformer – hydrogen fuel cell (+batteries)
Liquid hydrogen storage – hydrogen fuel cell (+ batteries)
Diesel and hydrogen fuel storage – diesel internal combustion engines and hydrogen turbine (+ batteries)
Methanol fuel storage – methanol internal combustion engines (+batteries)

The project showed that AI has both clear limitations and multiple benefits. To be truly successful, the AI tool needs to become an in-house piece of software that naval architects can use directly themselves. Plus, training the AI tool requires a lot of input from naval architects and equipment vendors.

“With these things in place, AI can provide shipowners with cost projections (CAPEX and OPEX) from which they can base their investment decisions and better convey their intentions to the naval architect. This capability is something we are now offering to our clients to offer them greater confidence in their investment decisions,” adds Richard Featherstone.

Longitude is the design and engineering arm of Oslo-listed global consultancy ABL Group. Alongside ship design, Longitude specialises in offshore wind design, facilities and subsea, and marine operations engineering.
Source: ABL Group

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