Optimal Design of Simulation Experiment for Integrated LNG/Hydrogen Energy Application Based on HyRAM Software
The quantitative safety management of new energy and clean energy installations is always a challenging aspect of experimental teaching.To enable students to understand the potential collaborative developments between future liquefied natural gas(LNG)receiving terminals and the hydrogen energy industry,the article uses an LNG receiving terminal as an experimental platform.By employing HyRAM software to simulate typical hydrogen leakage scenarios and analyzing the hazard zones of jet fires and vapor cloud overpressure following gas leaks,protective layer optimization design work was conducted based on the analysis results.The integration of LNG receiving terminals with HyRAM software further expands the simulation capabilities of conventional safety laboratories,allows students to understand the specific process flow of LNG receiving terminals,and enhances their ability to conduct risk analysis using hydrogen risk assessment software.This provides valuable exploration for the experimental teaching aimed at cultivating safety-oriented professionals.
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