World Education Connect Multidisciplinary e-Publication, Vol. VI, Issue I (January 2026), pp.312-336
Genesis L. Tano
Calubian National Vocational School, Calubian, Leyte, Philippines
The investigation of novel energy solutions, like the Flywheel Spring Mechanism Free Energy Storage System, is fueled by the rising demand for clean, reasonably priced, and dependable power on a worldwide scale. This study focuses on designing and building a free energy storage system that uses a flywheel and spring mechanism to capture mechanical energy and convert it into usable electricity. The goal is to create a system where the flywheel stores kinetic energy and the spring keeps it spinning, allowing for longer motion and energy generation. Using mechanical, electrical, and electronic components, the system converts that energy into electrical power—offering an efficient way to store and use energy without fuel or sunlight. The researcher built a working prototype and tested its performance, examining the design, tools, data collection, and whether it provides consistent power for lights, appliances, or small devices. In essence, the system is self-sustaining, using the spring to keep the flywheel moving and enabling continuous energy recovery. It showed potential for real-world use, especially in rural or emergency settings where traditional energy sources are costly or unavailable. At its core, this research promotes energy conservation, waste reduction, and smart mechanical solutions for clean, reliable power.
Keywords: flywheel, free energy storage system, kinetic energy, mechanical energy, spring mechanism
