With sustainability concerns and the growing adoption of electric transportation, the battery market is expanding at an unprecedented pace. Industry analysts predict that there will be limited room for only 15 global suppliers. Batteries play a critical role in e-mobility, requiring constant innovation to meet the demands for range, cost, safety, comfort, and charging time. Developing next-generation sustainable technologies, such as solid-state or cobalt-free batteries, is essential. However, achieving optimal battery cell chemistries and formats necessitates iterating through multiple cycles. Traditional validation techniques relying solely on physical testing are slow and costly, requiring extensive exploration of hundreds of permutations and combinations. To ensure quality and safety, battery validation without physical prototypes must be equally precise, mitigating concerns such as thermal runaways.
The future of battery development is within reach. The development of sustainable technologies, such as solid-state batteries, is of utmost importance. However, optimizing battery cell chemistries and formats is equally vital. Traditional methods of physical testing validation are slow and costly, as they involve exploring numerous combinations. When designing and engineering industrial batteries, it is crucial to consider various aspects, including chemistry, cell design, electronics, mechanics, software, and their intricate interdependencies.
Accelerated Battery Development solutions facilitate the efficient development of new battery cell and pack designs specifically tailored for industrial applications. The race is on to create the next generation of lithium-ion and other batteries, and Siemens is here to support your efforts.
The development process for industrial batteries often presents unique challenges. To overcome these obstacles, it's crucial to fast-track the adoption of an integrated, model-based, quality-driven battery development process. By leveraging cutting-edge methodologies, you can significantly speed up your innovative battery development processes.
#BatteryDevelopment #IndustrialBatteries #EV #Sustainability #BatteryProcess #integratedsoftwaredesign
►INDUSTRY PAGE: https://sie.ag/3qPY57q
►JOIN THE COMMUNITY: https://sie.ag/3Nb3kG8
FOLLOW US:
►FACEBOOK: https://sie.ag/3qUxNAE
►TWITTER: https://sie.ag/3PkHzGz
►LINKEDIN: https://sie.ag/3XjlIBl
►BLOG: https://sie.ag/3XjlIBl
To ensure that cell and pack designs meet performance, safety, and cost goals, collaboration among different domain teams is crucial. The integration of simulation and model-based product definition is instrumental in rapidly generating and evaluating design variants, enabling testing and optimization without the need for expensive physical tests.
The inclusion of embedded-software development in the design process is vital for the development and validation of battery management systems (BMS), guaranteeing battery stability, safety, and longevity. By parallelizing software development, optimal software systems can be validated early on, leading to optimum battery pack performance under any usage condition.
Информация по комментариям в разработке