Modeling, Simulation and Analysis of Electric Vehicle Driven by axial flux Motor and Cobalt Batteries

In today's world, transportation is vital. The conventional cars are substituted by electric vehicles because of their potential to reduce air pollution, lessen the effects of greenhouse gas emissions, and avoid the depletion of fossil fuel supply has already made them attractive substitutes for conventional cars. This is because electric vehicles are produced centrally.

Electrical energy is utilized to power electric cars. The emissions from energy produced from centralized sources can be regulated and are more efficient than those from internal combustion engines. Additionally, electric vehicles store and transform their kinetic energy into electrical energy 4 while braking and casting. The primary part of an electric vehicle (EV), which replaces internal combustion engines, is an electric motor. Here we have modeled an electric car model powered by cobalt batteries and an axial flux motor. The simulation experiments show that the axial flux motor has a high degree of stability when driving the EV in various motion modes.