Modeling and Simulation Analysis of Liquid Hydrogen and Power Systems Based on Amesim

2026-99-1608

To be published on 07/24/2026

Authors
Abstract
Content
Hydrogen-powered aircraft primarily utilize the conversion of liquid hydrogen into gaseous hydrogen to replace aviation kerosene, where hydrogen is directly combusted to provide propulsion. This study applied Amesim software to establish a complicated model simulating the liquid hydrogen to gaseous hydrogen conversion and ignition combustion processes. The simulation contains converting liquid hydrogen into gaseous hydrogen through a heat exchanger and simulating the mixture of gaseous hydrogen and air in the engine combustion chamber, and then igniting the mixture. The pressure, temperature, and flow rate of gaseous hydrogen and air during the ignition and combustion process in the engine combustion chamber, as well as the outlet temperature of the combustion chamber, are simulated and analyzed. The results demonstrate that during the simulation process, the internal pressure of the liquid hydrogen storage tank, the outlet pressure and flow rate of the liquid hydrogen pump, and the pressure and flow rate of gaseous hydrogen meet the requirements of the ignition combustion test. In addition, varying gaseous hydrogen flow rates had significant impacts on the temperature of the combustion chamber during combustion.
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Citation
Gao, P. and Wang, L., "Modeling and Simulation Analysis of Liquid Hydrogen and Power Systems Based on Amesim," 2025 International Conference on Solid Mechanics and Materials (ICSMM 2025), Hengyang, China, August 15, 2025, .
Additional Details
Publisher
Published
To be published on Jul 24, 2026
Product Code
2026-99-1608
Content Type
Technical Paper
Language
English