Thermal Modelling of Heat Transfer Between Ambient Air and Powerpack

Typ
Examensarbete för masterexamen
Master's Thesis
Program
Applied mechanics (MPAME), MSc
Publicerad
2023
Författare
Larsson, Axel
Rangaswamy, Sunil
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This report presents the creation and evaluation of an air-cooling steady state model for a Volvo Cars powerpack. It should simulate the heat transfer and temperatures from the components of the powerpack. Especially interesting is how the NVH (Noise Vibration Harshness) encapsulation affects the cooling performance. This encapsulation is a thin foam layer that surrounds the motor and dampens the noise caused by it. A 1D model already existed that handled the internal heat generation and the liquid cooling of the powerpack. Twenty chosen operating conditions were iteratively calibrated between the 1D model and a full car 3D model to yield heat transfer coefficients (HTC) for each thermal node in the extension. They were chosen as variable sweeps (sweeping over multiple values for one variable while keeping the rest constant) from a central base case, yielding four to five data points to analyse each variable’s impact separately. The results show that the air-cooling increases as a fraction of the total cooling as the car velocity and driveshaft torque increases. It also shows that most air-cooling bypasses the encapsulation, meaning the encapsulation has little impact on the performance. When compared with physical measurements the accuracy of the model is low. This is most likely caused by the lack of calibration for operating conditions where multiple variables were changed from the base case. It is therefore recommended that future work includes additional operating conditions to simulate. This could not be done in this project due to time and computational constraints.
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Air cooling , BEV , GT-SUITE , Powerpack , Simulation , STAR-CCM+ , Temperature , Thermal management
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