Internal Job Description
Multibody Simulation (ADAMS)
• Develop and implement thermal management strategies for high-power components, including batteries, inverters, electric motors, and power electronics, using tools such as ANSYS, GT-SUITE, and STAR-CCM+.
• Conduct thermal simulations to evaluate and enhance the performance of cooling and heating systems under different operating conditions, such as high-speed driving, rapid acceleration, and charging.
• Collaborate with powertrain, electrical, and control teams to integrate thermal management solutions into overall vehicle design, ensuring compatibility and efficiency.
• Analyze heat transfer and cooling requirements, assessing the effectiveness of components like radiators, heat exchangers, and HVAC systems to maintain optimal operating temperatures.
• Optimize battery thermal management to ensure consistent performance, prolong battery life, and enhance vehicle range under various environmental conditions.
• Validate thermal models against real-world data by conducting physical tests under different load and environmental conditions, adjusting simulation parameters as needed to improve accuracy.
• Document thermal analysis results, preparing detailed reports with recommendations for design improvements to enhance cooling efficiency and component reliability.
• Research and implement advanced cooling technologies, such as phase change materials, liquid cooling systems, and thermal insulation, to improve overall vehicle thermal performance.