Explore the Power of Simulation in Battery Technology: At Bamboo Charge, we pride ourselves on our exceptional team of engineers dedicated to delivering top-notch simulation services in the realm of battery technology. Our innovative approach encompasses a wide range of simulation solutions tailored to meet the unique needs of our clients. From thermal analysis to, shock, and vibration, our simulations cover every crucial aspect of battery performance and safety.

Harnessing the Power of Cutting-edge Tools: Our team excels in harnessing the power of cutting-edge simulation tools to provide real-time models and digital twin technology. Leveraging these advanced techniques, we optimize battery pack performance, extend their lifespan, and enhance overall safety. Our simulations ensure compliance with industry standards such as NFPA 68 and NFPA 69, guaranteeing the reliability and safety of our solutions.

Extensive Array of Simulation Tools: At Bamboo Charge, we continuously stay updated with the cutting-edge simulation tools in the market. Our expertise spans across a wide range of comprehensive software suites, including Ansys Mechanics, Ansys Fluent, IcePack, Ansys Twin Builder, FloEFD, FloTherm XT, Flotherm, FloMaster, Start CCM, as well as various open-source codes. We possess an in-depth knowledge of the distinct advantages offered by each tool, enabling us to make well-informed decisions to ensure optimal results.

Comprehensive Simulation Capabilities: Our comprehensive simulation capabilities span a diverse array of studies, ensuring robust insights into battery performance and safety. Our services include:

• Thermal propagation analysis
• Thermal runaway analysis
• Battery pack layout optimization for safety, manufacturability, reliability, performance, and extended lifespan
• System-level thermal and electrical modeling
• Real-time temperature mapping of battery packs and electronic enclosures
• Real-time performance analysis of cooling solutions
• 1D simulation of full battery pack cooling loops
• Hydraulic simulation of cooling solutions
• Structural analysis for shock and vibration
• Battery aging studies
• Design optimization of electrical connections within battery packs
• Real-time estimation of battery pack electrochemical performance (SoC, SoH)
• Development of Reduced Order Models (ROM) for battery packs
• Creation of Digital Twin representations of battery pack electrical and thermal performance
• Reliable models to determine real-time heat dissipation of batteries under various conditions, including SoC, SoH, temperature, and use cases