Battery and Energy Analysis CAE for Vessels ASU/ISTR
Supports analyses necessary for battery design, such as internal stress and temperature changes within the cell.
In the shipping industry, energy conservation is strongly demanded to improve fuel efficiency and reduce environmental impact. Particularly, as the introduction of electric propulsion systems and energy storage systems progresses, ensuring the performance and safety of batteries is crucial. Accurately predicting internal stresses and temperature changes during the battery design phase and optimizing the design is essential for enhancing system efficiency and safety. ASU/ISTR is a dedicated pre-post integrated environment for FrontISTR that efficiently conducts structural and thermal analysis of battery cells, packs, and energy devices. It also facilitates the modeling of battery-specific phenomena, contributing to energy conservation in ships. 【Usage Scenarios】 * Battery design for electric propulsion systems * Thermal analysis of energy storage systems * Structural analysis of battery packs 【Benefits of Implementation】 * Improved battery performance and extended lifespan * Enhanced system safety * Achievement of energy conservation
- Company:TOKYO KOKI TESTING MACHINE CO.LTD.
- Price:Other
