A Manual Charging Adaptive Energy Efficient Bike

An adaptive bike prototype that employs a new manual charging mechanism to generate energy from renewable sources is the primary focus of this research. This study presents a sustainable method for short distance travel in response to the growing pollution from vehicles and the rising need for environmentally friendly modes of transportation. Proving that human power can effectively replace non renewable energy sources is the main goal of this study. By incorporating a smartly engineered adaptive bicycle, our goal is to transform the mechanical energy of rotation into electrical energy, which can then be stored in a dedicated battery. After that, the bike’s electric motor draws on the stored energy to propel the rider forward. Building and testing a prototype that efficiently collects and stores energy while pedalling is an important part of our technique. A thorough evaluation of the mechanical parts, the method of electrical conversion, and the effectiveness of battery storage are all part of the process. We test the adaptive bike’s ability to charge itself without any outside power sources by conducting a battery of controlled trials and performance assessments. With an average efficiency of X% in energy conversion, the data show that the manual charging method was successfully integrated. Adaptive bicycles, in particular, show great promise for widespread use as a green, efficient mode of transportation for shorter commutes. This fresh perspective emphasizes the possibility of incorporating renewable energy technologies with conventional transportation, encouraging a greener and more long lasting way to get about. The accomplishment of including a manual charging mechanism for bicycles is a noteworthy new discovery that enables sustainable and environmentally friendly short distance riding. Reducing reliance on non-renewable energy sources for transportation is one of the environmental challenges that this invention aims to solve.