Electric vehicles’ rapid adoption demands a vast quantity of energy. Alternative energy sources are being highlighted as a result of the finite supply of order of fossil resources to create the long-term power supply industry with eco-friendly products. It has immense prospects for energy sources such as biogas and biomass. A 20 kW biogas-powered electric vehicle charging station (EVCS) with a maximum energy requirement of 100 kWh is shown in this study. This work uses the MATLAB Simulink to design a biogas-based EVCS. On a daily basis, the suggested charging point can recharge 15-20 electric vehicles. The proposed approach is more energy-efficient than grid electricity. Furthermore, when compared to charging stations with power systems, The planned charging station produces 58.75% less CO2. Furthermore, for simple electric bicycles and rickshaws, the suggested EVCS will save $ 16.25 and $ 27.50 each month, respectively. The study includes the effects of solar irradiation, biomass, and variations in the power management system’s charge. According to the techno-economic study, the planned scheme could be a viable energy option. The release of greenhouse gases (GHGs) such as CO2, CO, SO2, and NOX is greatly reduced when compared to other existing techniques. The findings will aid in the development of future EV charging systems that are both technically and socially viable.