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Author Topic: Motionless Switching Magnetosphere Electric Generator  (Read 1064 times)

Offline Lunkster

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Motionless Switching Magnetosphere Electric Generator
« on: December 02, 2021, 05:57:34 PM »
Motionless Switching Magnetosphere Electric Generator

This Generator is designed in the shape of the Magnetosphere.
The core of the generator has a common switching coil(electromagnet) with
two large permanent magnets on each side of the coil.  There are fins
around this core.  There will be several fins around the core so that
the assembly will look like a sphere.  The fins have permanent magnets
spaced out in the fin in such a way to move flux from one magnet to the
next magnet in the fin and then through the core finally flowing
through the fin again.  One the outside of the permanent magnets in the
fins are coils.  The coils are spaced farther from the permanent magnets
so that the normal flux flow moves from one permanent magnet to another
producing one large ring of flux flow using the core as part of that route.
The magnets and coil in the core are larger that the fin magnets so that the
core can handle the travel of the sum of flux flow from all of the fins in
the generator.

This generator design is different than the Sphere Generator I have already
designed because it uses permanent magnets in the core rather than
core material.  I believe the permanent magnets will provide better
assurance that the large ring magnet function will work.  At least it should
work better than core material.  Also, there is only one coil per permanent
magnet in each fin rather than more coils in the sphere generator.  The
reasons for this change are that having one coil outside the permanent
magnet means it is farther away from the core, this will reduce negative
interaction between the fin coils and the core magnets.  This design
will also allow more fins to be placed into the generator.  More fins
means more power generation.  The coils in the fin need to be large
enough to handle the flux that will be moving through the coils.

The operation of the generator is about the same as the sphere generator
I have already designed.  This new design will operate with more power
and efficiency. 

The way this generator operates is that each fin assembly works in conjunction
With the common core assembly.  The normal flux flow is of each fin is through
 the core creating a large ring magnet.  So, the generator will have several large
ring magnet actions being performed at the same time. 

There is one large coil that has a core that supports all of the flux flowing
Through its core when the power is off to the generator.  Once the power
Is turned on to the coil, the coil produces a magnetic field that opposes
The direction of flux flow through the core.  What this does is it breaks
The large flux ring flow of the flux for each of the fins.  The flux then
Looks and fins the next easiest route for the flux to flow.  Most of the
permanent magnets in the ring will then start to use the core in the coil
that is closest to it in the fin assembly to travel through to get to the
other side of the permanent magnet.  The reason it takes this route is
because the core material is an easier path than an all-air path to get to
that side.
The electric power generation is performed through the coils that are
Beside the permanent magnets in the fin assemblies.  The is wire wrapped
around the coils cores that will have electricity flowing through them
as a result, change in flux movement.  In fact, there is flux either starting to
flow through the coils or reducing their flux flow with each change in the
electrical condition on the one electromagnet at the center of the generator
core.  With the best switching speed for the generator, it means that the
electromagnet can operate at a 50% duty cycle while each coil in the generator
 can collect alternating current 100% of the time.  So, the generator uses one switching
electromagnet operating at a 50% duty cycle to be able to collect electrical
energy from several coils at the same time. 
The electrical energy to produce a magnetic field for a 50% duty cycle in this
Generator should be a lot smaller than the several coils producing electrical
Energy from the several permanent magnets that are changing their flux
Routes.  This is similar to a FET or transistor where a larger amount of energy
 is being controlled by a smaller one.
Please build one of these, you will be glad you did.

Lunkster

Offline Lunkster

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Re: Motionless Switching Magnetosphere Electric Generator
« Reply #1 on: December 06, 2021, 11:55:41 PM »

The following drawing is for a Mechanical Switching Magnetosphere Electric Generator
Why would anyone want a mechanical generator if a motionless generator is available?

This generator could be installed in current wind generators.
With a sphere generator containing several fins, each
fin having about six permanent magnet/coil pairs in them.
The sphere with 16 fins in it would have 96 pairs in it. 

Since the one turning permanent magnet in the middle of
the core is rotating to switch the flow of the sphere in and out
of magnetosphere function, then each magnet/coil
pair will be constantly changing the majority of flux flow between
them.

The flux switching in the core causes the flux flow in each permanent
magnet to change its flow from moving through the core by way of going
through the other permanent magnets in the fin to that of each permanent
magnet having its major of flux flow through the coil closest to it in the
fin assembly. 

This constant rerouting of flux causes a constant changing of
flux flow in the core of each coil.  Electrical energy is created with each
flux flow change.  The electrical energy generated from 96 coils
should make this generator design one of the best there is in my mind.

Applications like wind power generation and water flow to
rotate the permanent magnet in the main core are a few application
for power generation with this generator.

This generator should produce more electrical power in my mind
than other mechanical generators.

If the Motionless Switching Magnetosphere Electric Generator
can produce more electrical power than what is needed to
power the electromagnet operating at a 50% duty cycle,
then this Mechanical generator may the next best thing.

Lunkster


Online Floor

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Re: Motionless Switching Magnetosphere Electric Generator
« Reply #2 on: December 07, 2021, 04:37:00 PM »
Liking the creativity Lunkster.

Idea...

Two identical units.

Completely magnetically isolated from each other.

Their rotating magnets, sharing a common axle upon which they rotate.

The magnet interactions (attraction and repulsion) would be 180 degrees out from
each other.  i.e. The one attracting when the other is repelling.


At near distances attraction forces would be greater than repelling forces.

At far distances repelling forces would be greater than attracting forces,
although both kinds of forces would be weaker than when at near distances.

Some where in a mid range of distances, attracting and repelling forces
would be approximately equal, although both kinds of forces would be weaker
than if at near distances.

But the energy expended to cause mechanical rotation against the magnet forces
would be counteracted / neutralized to a large degree.

If it resulted in O.U. it would be worth having sacrificed utilizing the maximum
available magnetic forces of the rotating magnets, which would have existed if
the rotating magnets were at  close distances to the fixed magnets (as you have illustrated).

Offline Lunkster

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Re: Motionless Switching Magnetosphere Electric Generator
« Reply #3 on: December 12, 2021, 07:21:33 PM »


Lunkster
Liking the creativity Lunkster.

Idea...

Two identical units.

Completely magnetically isolated from each other.

Their rotating magnets, sharing a common axle upon which they rotate.

The magnet interactions (attraction and repulsion) would be 180 degrees out from
each other.  i.e. The one attracting when the other is repelling.


At near distances attraction forces would be greater than repelling forces.

At far distances repelling forces would be greater than attracting forces,
although both kinds of forces would be weaker than when at near distances.

Some where in a mid range of distances, attracting and repelling forces
would be approximately equal, although both kinds of forces would be weaker
than if at near distances.

But the energy expended to cause mechanical rotation against the magnet forces
would be counteracted / neutralized to a large degree.

If it resulted in O.U. it would be worth having sacrificed utilizing the maximum
available magnetic forces of the rotating magnets, which would have existed if
the rotating magnets were at  close distances to the fixed magnets (as you have illustrated).


Floor,

I am so thankful for your input.
I do have one request for you.
When you have time could you put a couple of sketches
or drawings of your ideas ether here or in a new post.
I see things better visually than in writing.
I look forward to seeing them.

Lunkster