Einstein
Temporal Engineer
- Messages
- 5,367
This is my own design. The concept is constructed from known facts. The magnetic shunts are rotated within a uniform magnetic field. There are no power robbing eddy currents because the rotation occurs in a uniform magnetic field. This concept is borrowed from Bruce Depalma's N-Machine. The difference is that an oscillating magnetic field is produced when the magnetic shunts are rotating. The oscillating magnetic field will induce electrical power in the armature. All the electrical energy will be cleanly produced. No hydrocarbon emissions. No radioactive waste.
The real magic trick occurs with the rotating magnetic shunts. Normally moving a magnetic shunt in and out of a magnetic field requires the expenditure of power. But in this design the rotating magnetic shunt stays in the uniform magnetic field. No energy is lost to the magnetic field presence. This is also demonstrated to be the case in the N-Machine. With no energy loss, the motor providing the rotation to the magnetic shunts, could be a very low voltage synchronous motor type. Some of the output power could be fed back to run the magnetic shunt motor.
I haven't built one yet. But if ever there was a choice between all the different designs out there, I would say you'll probably get more bang for your buck with this design. If you build one, just be smart and DO NOT touch the output wires while in operation.
The real magic trick occurs with the rotating magnetic shunts. Normally moving a magnetic shunt in and out of a magnetic field requires the expenditure of power. But in this design the rotating magnetic shunt stays in the uniform magnetic field. No energy is lost to the magnetic field presence. This is also demonstrated to be the case in the N-Machine. With no energy loss, the motor providing the rotation to the magnetic shunts, could be a very low voltage synchronous motor type. Some of the output power could be fed back to run the magnetic shunt motor.
I haven't built one yet. But if ever there was a choice between all the different designs out there, I would say you'll probably get more bang for your buck with this design. If you build one, just be smart and DO NOT touch the output wires while in operation.