Depken, JorgenJorgenDepkenBaetcke, LarsLarsBaetckeKaltschmitt, MartinMartinKaltschmittEhlers, SörenSörenEhlers2026-01-222026-01-222026-01-06International Journal of Hydrogen Energy 205: 153196 (2026)https://hdl.handle.net/11420/60924Hydrogen, in its various storage forms, represents a potential fuel for climate-neutral shipping. In order to evaluate the safety of bunkering liquid hydrogen and to establish a basis for a comparison with the bunkering of LNG, a quantitative risk assessment has been conducted. This paper continues this work, by first realizing a quantitative risk assessment (QRA) with adopted systems allowing for the same bunkering duration for both fuels. The investigation shows that the diameter of the pipe has a significant impact on the frequency of hazardous events. To gain a deeper understanding of the effect, a sensitivity analysis is conducted. In addition to the frequencies, a notable impact of the pipe diameter can also be observed with regards to the safety distance in the full rupture case. Furthermore, the safety distances are found to be significantly impacted by wind speed and release time. The ambient temperature and humidity are identified to have only a minor impact.en1879-34872026Elsevierhttps://creativecommons.org/licenses/by/4.0/BunkeringHydrogenLNGQRASafetyShippingSocial Sciences::380: Commerce, Communications, TransportSocial Sciences::363: Other Social Problems and ServicesJournal Articlehttps://doi.org/10.15480/882.1649610.1016/j.ijhydene.2025.15319610.15480/882.16496Journal Article