Multidisciplinary optimization of hydrogen storage tank frame optimization

Hydrogen storage tank frames play a critical role in ensuring structural integrity and longevity under dynamic loading conditions. This study focuses on optimizing the frame design using a multi-disciplinary approach that integrates modal, durability, and fatigue analysis. The objective is to enhance structural performance, weight efficiency, and fatigue life while maintaining safety and compliance with industry standards.
Optimization techniques, such as topology optimization and parametric design exploration, are employed to refine the frame geometry, minimizing mass while improving strength and durability. The results demonstrate a significant improvement in fatigue life and modal characteristics, ensuring a robust and lightweight design for hydrogen storage applications.