UK-based classification society Lloyd’s Register (LR) has released updated guidance on the installation of fuel cells on ships, detailing procedures aimed at enhancing safety in the use of alternative power systems.
As disclosed, the July 2025 edition of ‘Guidance Notes on the Installation of Fuel Cells on Ships’ incorporates recent regulatory updates and technical developments related to fuel cell technology in the maritime sector.
It is understood that it introduces two safety concepts for fuel cell spaces: emergency shutdown-protected fuel cell spaces and gas-safe fuel cell spaces. According to LR, the gas-safe fuel cell space concept enables installation of fuel cell power systems within conventional machinery spaces and simplifies retrofitting, while ensuring compliance with fire protection, explosion prevention, and hazardous zone requirements.
Reportedly, the document also addresses lifecycle considerations such as degradation, maintenance, and end-of-life performance, as well as operational topics such as power conditioning, thermal management, and inert gas purging. Specific recommendations are said to be provided for installation locations, access, and environmental resilience. LR noted that the updated guidance highlights the importance of risk assessments tailored to each installation, considering hazards including fire, explosion, toxicity, and electric shock.
Thomas Bayer, Lead Specialist, Fuel Cell Technology, Lloyd’s Register, commented: “This new guidance is intended to provide detailed information for supporting the safe integration and reliable operation of fuel cell technologies on board ships. By meticulously detailing the framework for safe integration and operation of fuel cell technologies, we are not just providing guidance for understanding and implementing of LR rules; we are fostering innovation and building confidence in the next generation of propulsion systems.”
In other news, LR partnered with Deployable Energy, a Houston-based nuclear technology company, to advance the safe use of micro-nuclear reactor technology to power ships. By replacing traditional marine fuels, the technology is expected to help reduce emissions, increase vessel efficiency, and extend time at sea without refueling.
