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@article{171479, author = {Pranav Anande}, title = {Design And Optimization of Cooling Plate for Battery Module of an Electric Vehicle}, journal = {International Journal of Innovative Research in Technology}, year = {2024}, volume = {11}, number = {8}, pages = {76-80}, issn = {2349-6002}, url = {https://ijirt.org/article?manuscript=171479}, abstract = {Efficient battery cooling is critical for electric vehicle safety and performance, yet existing methods like air and liquid cooling face limitations, including inadequate heat dissipation, complexity, and weight. This research presents a compact and lightweight cooling plate design utilizing high-conductivity aluminum with mini-channels and silicone pads to enhance thermal management. Ethylene glycol-water coolant circulates through the channels, effectively dissipating heat and preventing thermal runaway. By sandwiching the cooling plates between battery cells and leveraging airflow beneath the vehicle, the system achieves uniform temperature distribution, improved performance, and extended battery life while addressing the challenges of conventional cooling methods.}, keywords = {Electric vehicle cooling system, Battery thermal management, Lightweight cooling design, Thermal runaway prevention, Enhanced battery performance.}, month = {December}, }
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