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Thermal performance estimation for cryogenic storage tanks: Application to liquid hydrogen

Published 30 Jan 2025 in physics.app-ph | (2501.18451v1)

Abstract: The design of cryogenic liquid storage solutions requires accurate methods for estimating heat ingress, from the material level to the tank level. For insulation materials, thermal performance is usually measured using ambient conditions and liquid nitrogen at 77 K as boundary temperatures. A key question is how much heat ingress increases when storing liquid hydrogen LH$_2$ at 20 K. We derive theoretical bounds on the increased heat ingress, and show that it remains below 26%. Additionally, we demonstrate that heat ingress is much more sensitive to the warm boundary temperature than the cold boundary temperature. At the tank level, we compare two methods for assessing the steady-state thermal performance of cryogenic tanks: thermal network models and the heat equation solved with the finite element method. The latter offers high accuracy and adaptability for complex geometries, while thermal network models benefit from simplicity, speed and robustness. We apply both approaches to a self-supported LH$_2$ tank concept for maritime transport and analyze sensitivity to structural support thickness, warm boundary temperature, and choice of insulation material. The thermal network model can estimate heat ingress with $\sim$1% error and the cold-spot temperature with error less than 1 K.

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