A superconductor or not?

[korfezli]

Dear people,

 

I need advise on a electro technical issue.

 

Maybe you have already seen this scientific toy, a magnet train:

 

 

Instead I believe it is not just a toy.

 

The theory

 

When you have a wire, you put current on it, let's say 60 hz/s, it will conduct a frequency of 60hz/s current.

 

When you have a wire bonded with another wire for five rounds, the wire will conduct 60 hz/s, and create electromagnetism of 5hz/s

 

When you have a wire 60 times wrapped it will conduct 60hz/s and create a boost with 60hz/s.

 

 

• The magnet must be set to flow for the time needed to create 60hz/s wen your current is flowing with 60hz. If the current is at 1000 hz/s, then the magnet must be set to take 1000 rounds of bonded wire and so on.

 

 

Now imagine that an active superconducting can be reached by boosting the grid of power plants with 60hz/s, every second the grid is boosted with these "toys" and the grid is being boosted and kept stable providing less loss of current when transporting power.

 

I really believe this is a simple trick and i am convinced it will work.

 

I know there is a need for a real superconductor and that scientists all over the world are researching a powerful method.

 

Do you think this can work?

[Bender]

No.

 

The video has nothing to do with superconductors. It is a mystery to me why it has that title.

 

What do you mean with a "current of 60 Hz/s"? Do you want to increase the frequency by 60 Hz each second? Why? Increasing the frequency means more losses.

[korfezli]

Electric Power transport with a frequency of 60 hz. Electricity has a frequency for transport.

 

 

The issue is about transporting without loss or less loss of power.

 

I want to keep up the frequency by boosting it each time with 60 hz in a distance. So when the grid has 60 hz, i give 60 hz of boost to give it good flow.

 

So I do not increase the frequency but i boost it with the turning magnet.

 

 

Example: 1 km power grid has 10 of these "toys" and keep up the energy stable without loss. Each 100m x 10 = 1km

 

Normally the loss of energy is approximately 30%, when you can reduce this, you will earn much money.

Edited February 16, 2017 by korfezli

[Bender]

There is no "loss in frequency" to "boost", whatever you mean by that.

 

I'm afraid that your idea makes no sense. I find it difficult to even start replying to it.

 

Luckily, loss of energy over 1 km is nowhere near 30%.

 

Are you aware of the fact that the rod between the magnets is a battery, and that the "train" is nothing but a very simple and inefficient linear motor?

Edited February 16, 2017 by Bender

[korfezli]

I think it could be a frequency stabilizator

[Bender]

Why do you think there is a need for it?

 

 

Over the course of a day, the average frequency is maintained at the nominal value within a few hundred parts per million.

source

 

How could this system reach that accuracy?

Edited February 19, 2017 by Bender