@conference{50a8c7a69ce24828bb65066d1bed5368,
title = "Sodium Borohydride as Alternative Fuel for Maritime Vessels",
abstract = "Greenhouse gas emissions drive global warming, posing significant risks to ecosystems and human society. The maritime sector contributes approximately 3% of global emissions, leading the International Maritime Organization (IMO) to target a 40% reduction in emissions by 2030 and 70% by 2050, compared to 2008 levels. This reduction can be achieved by improving vessel efficiency or adopting alternative fuels such as hydrogen. Traditionally, hydrogen is stored as a gas, liquid, or cryocompressed, but these methods have drawbacks, including high pressure and energy demands. A promising alternative is sodium borohydride (NaBH4), a solid hydrogen carrier that offers high volumetric energy density and safe storage at ambient conditions. When used in maritime vessels, NaBH4 reacts with water to produce hydrogen and a byproduct, which is stored and later regenerated onshore. Both NaBH4 and its spent fuel are granular materials, requiring specific handling equipment. This paper aims to identify the mechanical characteristics of NaBH4 and its spent fuel to design appropriate storage and handling systems using the Discrete Element Method (DEM).",
keywords = "Sodium Borohydride, Hydrogen, Circular Bunkering, Characterisation, Granular materials",
author = "{van Benten}, M.C. and J.T. Padding and D.L. Schott",
note = "Accepted Author Manuscript; European PhD Hydrogen Conference, EPHyC ; Conference date: 19-03-2024 Through 22-03-2024",
year = "2024",
language = "English",
pages = "583--588",
url = "https://www.ephycconference.com/",
}