2022
DOI: 10.3390/en15062046
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Modelling of Boil-Off and Sloshing Relevant to Future Liquid Hydrogen Carriers

Abstract: This study presents an approach for estimating fuel boil-off behaviour in cryogenic energy carrier ships, such as future liquid hydrogen (LH2) carriers. By relying on thermodynamic modelling and empirical formulas for ship motion and propulsion, the approach can be used to investigate boil-off as a function of tank properties, weather conditions, and operating velocities during a laden voyage. The model is first calibrated against data from a liquefied natural gas (LNG) carrier and is consequently used to inve… Show more

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Cited by 22 publications
(11 citation statements)
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References 66 publications
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“…The Lee model is composed of the mass of liquid or gas within a control volume, the difference between the fluid temperature and the saturation temperature T sat , and the empirical constant known as the relaxation coefficient R. T sat can be expressed as a function of the absolute pressure P, presenting the temperature at which the vaporization of the liquid hydrogen begins, as shown in the following equation: logT sat = 1.497 + 0.209(log P) + 0.021(logP) 2 (5)…”
Section: Mathematical Modelmentioning
confidence: 99%
See 1 more Smart Citation
“…The Lee model is composed of the mass of liquid or gas within a control volume, the difference between the fluid temperature and the saturation temperature T sat , and the empirical constant known as the relaxation coefficient R. T sat can be expressed as a function of the absolute pressure P, presenting the temperature at which the vaporization of the liquid hydrogen begins, as shown in the following equation: logT sat = 1.497 + 0.209(log P) + 0.021(logP) 2 (5)…”
Section: Mathematical Modelmentioning
confidence: 99%
“…Smith et al [2] investigated the rate of BOG generation for a conceptual liquid hydrogen fuel carrier with a capacity of 173,600 m 3 using numerical and empirical formulas based on thermodynamics. The rate of BOG generation was influenced by the external weather conditions, speed of the fuel carrier, insulation thickness of the storage tank, and sloshing and re-liquefaction unit installed in the fuel carrier.…”
Section: Introductionmentioning
confidence: 99%
“…The cryogenic LH 2 is transported in heat-insulated, cryogenic spherical tanks [39]. The boil-off was not estimated to be reliquefied [40] or used as a marine fuel [41]. The LH 2 supply chain involved some infrastructural measures.…”
Section: Ship Transportationmentioning
confidence: 99%
“…The authors rightly claimed that accurate temperature measurements are required also for commercial transactions since the LH 2 density can vary consistently in a small range of temperature and pressure. Finally, in 2022, Smith et al [148] proposed a model to simulate both sloshing and BOG formation within the cryogenic tanks of LH 2 carrier ships.…”
Section: Other Studies Related To Liquid Hydrogen For Maritime Applic...mentioning
confidence: 99%