| dc.description.abstract | This thesis presents a novel design for a free energy generation system incorporating magnetic
interaction and mechanical motion. The purpose is to design and fabrication of different
components for free energy generation. The system consists of a square frame housing a freely
rotating plastic rotor. The rotor is equipped with 20 disc-shaped neodymium magnets arranged
around its top periphery at an 18° angle. Additionally, 4 flat neodymium magnets are fixed to the
inner sides of the square frame to enhance magnetic interaction. A DC motor is initially powered
to rotate the rotor via a belt-pulley mechanism. Once the power supply is disconnected, the
magnetic interaction is intended to sustain rotor motion, which in turn drives the DC motor to
generate voltage. However, experimental observations revealed that the plastic rotor does not
maintain continuous motion after disconnection external energy source, affecting consistent
energy generation. The system produced an average voltage of 2.56V, with a measured power
output of 47.49W. Despite its limitations, this study lays the foundation for further development
of magnetically-assisted energy generation systems. | en_US |
