The global transport sector is heavily dependent on fossil fuels as a vital source of energy. This has adversely affected the climate. This climate change necessitates that technologies employing renewable and clean energy should be utilized in the global transportation sector. To address this issue, in this study, a small wind turbine was implemented on a vehicle, such that it is able to capture the air when the vehicle is in motion to generate the required energy to run the vehicle. Consequently, theoretical modeling and experimental calculation were conducted to confirm the utilization of wind by the turbine of the running vehicle to generate electricity through the conversion process of its electrical subsystem, thereby powering the vehicle as a self-sufficient energy mechanism that can be commercialized. The results show that a car moving at 10 kph produces 8 kWh, for an average wind speed of 2 kph. As a standard car requires 20 kWh to get fully energized, the results indicate that it is possible to fully charge the car and run it for 200 kilom if the car runs at 10 kph for two hours during charging. Consequently, if the car runs at 60 kph, it will take require 20 min to get fully charged and run for the same distance. The findings of this research suggest that the large-scale adoption of wind energy, which is completely clean and available in abundance, to run vehicles can be an innovative solution to meet the energy demand of the global transportation sector.

全球运输部门严重依赖化石燃料作为重要的能源。这对气候产生了不利影响。由于气候变化，必须在全球交通运输部门中采用采用可再生和清洁能源的技术。为了解决这个问题，在这项研究中，在车辆上安装了一个小型风力涡轮机，这样它就可以在车辆行驶时捕获空气，以产生运行车辆所需的能量。因此，进行了理论建模和实验计算，以确认行驶中的车辆的涡轮利用风通过其电气子系统的转换过程发电，从而为车辆提供动力，使其可以商业化。结果表明，以10 kph的速度行驶的汽车产生8 kWh，平均风速为2 kph。由于标准汽车需要20 kWh才能完全通电，因此结果表明，如果汽车在充电过程中以10 kph的速度运行两个小时，则可以对汽车充满电并运行200公里。因此，如果汽车以60公里/小时的速度行驶，则需要20分钟才能充满电并以相同的距离行驶。这项研究的结果表明，完全清洁和大量可用的风能大规模采用来运行车辆，可以成为满足全球交通运输部门能源需求的创新解决方案。结果表明，如果汽车在充电过程中以10 kph的速度行驶两个小时，则可以对汽车充满电并运行200公里。因此，如果汽车以60公里/小时的速度行驶，则需要20分钟才能充满电并以相同的距离行驶。这项研究的结果表明，完全清洁和大量可用的风能大规模采用来运行车辆，可以成为满足全球交通运输部门能源需求的创新解决方案。结果表明，如果汽车在充电过程中以10 kph的速度行驶两个小时，则可以对汽车充满电并运行200公里。因此，如果汽车以60公里/小时的速度行驶，则需要20分钟才能充满电并以相同的距离行驶。这项研究的结果表明，完全清洁和大量可用的风能大规模采用来运行车辆，可以成为满足全球交通运输部门能源需求的创新解决方案。