First published at 12:03 UTC on May 15th, 2020.
The Anti Lenz Field Generator Concept revisited. For all of you who don't know what ALF is, please watch the ALF concept study #1 also. In that Video I am explaining it.
Additionally I'll try to explain the basic principle here again.
Tr…
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The Anti Lenz Field Generator Concept revisited. For all of you who don't know what ALF is, please watch the ALF concept study #1 also. In that Video I am explaining it.
Additionally I'll try to explain the basic principle here again.
Traditional Electromagnetic Induction Generators all run with an Efficiency <100% because when a magnet is approaching a coil then the coil will generate an electromagnetic field that:
-will repell the magnet when it's getting closer (=increasing fieldstrength)
-will attract the magnet when it's moving further away (=decreasing fieldstrength)
this results in a brake effect which demands for more mechanical input power. If this effect wasn't present then
the Generator would easily run at an Efficiency higher than 100%. This effect saves the law of Energy conservation, according to accepted science.
In the ALF the magnets and Coils are both fixed to the stator. Fluxbridges will switch the magnetic path of the magnets, becoming dynamic magnets themselfs (the ferromagnetic fluxbridges mounted to the rotor) that are, seen from the perspective of the coil, strong when further away from the coil and weakest when very close to the coil. This way the usual brake effect (often called 'Lenz Effect') is reversed and turned into an accelleration effect.
In Theory this Generator, once reaching a certain RPM, will not require mechanical input Energy to operate. The law of Energy conservation may not be applicable to all Regimes of quantum-ferromagnetic Interaction.
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