Abstract
As technological advancements progress, the demand for renewable energy has risen, with wind energy emerging as a leading solution to mitigate climate change and reduce reliance on fossil fuels. However, high costs limit accessibility, particularly in underdeveloped areas. This research aims to look for affordable yet high-quality wind turbine solutions as well as increasing awareness of wind energy's benefits and the accessibility of materials for marginalized communities. The study employs various formulas to evaluate the efficiency of our wind turbine. We found that our wind turbine generates approximately 900 watts, with increased efficiency in high-altitude, strong-wind, and cold-climate regions. However, inconsistency in wind direction and wind speeds can reduce accuracy. Using the Betz coefficient, the study finds the maximum wind energy harnessed by turbines. The results highlight the necessity of making renewable energy widely accessible, affordable, and sustainable. Addressing global challenges such as fossil fuel dependency and climate change requires all our efforts. This research advocates for increased awareness and collaboration in adopting renewable energy, showing
Keywords: Wind Energy, Mechanical Energy Conversion, Positive Benefits, Technological Advancements