Design and Optimization of an Electric Go-Kart
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Abstract
This research paper contains an in-depth study of the design and optimization processes for an electric go-kart prototype focused on at addressing the demand for sustainable transportation alternatives. The essential target of the undertaking is to design a protected and useful go-kart with an inflexible casing and very much-mounted powertrain while complying with contest rules. Through a multidisciplinary approach, the group means comprehending the complexities of vehicle design and creating a model reasonable for customer deals. Key center regions incorporate upgrading driver solace and security, expanding vehicle execution, and advancing mobility. The paper subtleties the design methodology, division into sub-groups, and joining of trend-setting innovations like Brushless DC (BLDC) motors, motor controllers, and battery. Also, it talks about the difficulties faced during the venture, including overheating the motor regulator, and proposes solutions to defeat these difficulties. The exploration also features electric vehicles' meaning in moderating environmental change and accomplishing energy autonomy, highlighting the desperation of progressing to reasonable transportation options.