ABSTRACT
With the rise of environmental awareness, our government wills progressively decommission nuclear power by 2025 to complete non-nuclear home targets. The current practice of the government is to build a new coal-fired power plant to replace the old coal-fired power plant, and build a new natural gas power plant; the result will be serious air pollution in Taiwan. Because the energy of wind and solar power is not stable, so the expedient strategy is to have the magnetic-assisted generator as an option to reduce the current shortage of electricity in Taiwan. The principle of the magnetic assisted generator is to use the principle of electromagnetism and the principle of magnetic levitation to make the polarity of the magnet, and for the induced magnetic field of the coil to generate suction and thrust. Its practice is: (1) The coil holder uses a non-magnetic material and adopts a hollow design; (2) The coil base is arranged in a straight line and a lateral direction; (3) The coil uses a single wire and double wire for different entanglement, so that the magnet can generate suction when entering the coil. After the hollow hole is changed, the direction of the magnetic field changes, so that the magnet generates thrust when it leaves the coil, and thereby the motor consumption caused by the Lenz’s Principle can be reduced during the power generation process. This can achieve energy savings. The structure of the magnet-assisted generator comprises of a total of eight coils for combination. The left and right two coils are used as general magnetic-assisted coils, the lower left group is used as the auxiliary magnetic-assisted coil, the lower two sets are used as 110 VAC electric coils, and the above three groups are used as 220 VAC electric coils. In addition to increasing the power generated, when the magnet enters the power generation coil, it provides 24 VDC to power the left and right and auxiliary magnetic-assisted coils, and uses the left and right and auxiliary magnetic-assisted coils for current gain, because the left and right and auxiliary magnetic-assisted coils in parallel with each other are used as the last coil of power generation on the connection of the line, the 24 VDC voltage added to the left and right and auxiliary magnetic-assisted coil directly constitutes a loop, and the current does not flow to the 110 VAC or 220 VAC tantalum coils, but the 110 VAC or 220 VAC generation coil current passes through the left and right and auxiliary magnetic-assisted coil can causing current oscillation, and the AC current oscillation can gain 14.7% of the power during the 24 VDC loop. The results of this research can generate a 418 VAC power generation voltage when the speed reaches 2,357 rpm. The generated power can be adjusted to 110 VAC, 220 VAC, or 380 VAC to provide various specifications of load. The magnetic boost current generator can be used for emergency electricity use in homes and hospitals to reduce utility power consumption and reduce the problem of peak power shortage in Taiwan.
