Designing A Flywheel And Spring Hybrid Device As An Alternative Energy Generating System

The proposed mechanical energy generating system is a hybrid system that harnesses mechanical energy stored in flywheels and springs to generate alternative energy that is capable of eliminating reliance in fossil fuel-based energy generators. This proposal presents a novel approach to sustainable energy generation through the design and development of a flywheel and spring energy system. This project when completed will serve as a source of alternative clean energy source that is capable of mitigating environmental impact. A comprehensive review of existing energy generation systems and mechanical energy storage technologies informed the design and optimization of the proposed system. Key performance parameters, including energy storage capacity, power output and efficiency will be evaluated through simulations and experimental testing. The results will demonstrate the potential of the flywheel and spring energy generating system to achieve high efficiency and reliability, making it a viable option for replacing conventional energy solutions, promoting a cleaner, sustainable and more environmentally friendly energy future. The system will be designed in such a way to involve the connection between the spring and the flywheel in order to utilize the elastic nature of the spring and it ability to resist an external extension force resulting from the rotation of the flywheel which can be set to be in continuous rotation due to the action of the crank mechanism mounted as a link between multiple springs and the flywheel. These will enable the device to continue rotating and running to generate free, clean and alternating energy when the flywheel is connected to any generator. The whole process is reliable and continous until a brake system is used to halt it movement.