The document provides an analysis of the drivetrain and powertrain thermal analyses of a Tesla Model 3 electric vehicle. The study aims to investigate the thermal management system of the vehicle’s powertrain, including the internal workings of the motor, stator, and rotor, as well as the cooling system.

Sensors and Materials; Vol. 35, No. 12 (2023)

The analysis uses computer simulations to examine the thermal behavior of the powertrain, including the motor, inverter, and gearbox. The study highlights the importance of thermal management in electric vehicles, particularly in high-power motors, and the challenges associated with designing efficient cooling systems.

Thermal Management in High-Power Motors

The document emphasizes the need for effective thermal management in high-power motors, which can generate excessive heat. The study suggests that simplifying complex geometries can lead to inaccurate predictions and increased design risks, and instead recommends maintaining the original geometry for mesh construction and heat flow analysis.

Conclusion

The study concludes that the thermal management of high-power motors is crucial for the optimal performance of electric vehicles. The development of advanced numerical simulation techniques, such as fast mesh construction methods, is necessary to design efficient cooling systems and ensure the longevity and reliability of the motor.

Manual:

Download: Tesla Model 3 Electric Vehicle Powertrain Thermal Analyses

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