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Scientists in Russia and other parts of the world, have shown how nanomaterials can be used for decontamination but they do not know how to produce it in an easy way and cheap way.
Now you have seen how it's been done. We have used this method nearly over seven years. We do it for different purposes. Now, you can do it yourself on the farm. Total cost, less than ten, fifteen dollars, to produce as much material.
Then, we show the next process, what you have to do. What we are going to show, is what we have produced, and how you produce material with one of the most expensive considered nano technologies in the world, which costs only a few cents.
As we said the Keshe Foundation opens the doors of this simple technology in 2014.
And we start opening it from now. With it, we've come to the next step. We show you the materials, how these materials are produced and kept. The production of new materials is not something new to the Keshe Foundation.
We always have a spot with, at, about new materials
These are the new materials, as in deep space. We cannot rely on supply from Earth.
We have developed a technology where you can produce as much materials as you like. These are exactly what we have produced, from the same process as before. These are copper wires with the fully nano materials.
This is the chicken mesh wire...Nano-materials. This could be a saw, which was rusted in half... Fully nano-coated oxide.
A radiator...with aluminum, nano-coated.
On the other hand, this is the nails which we showed you before. Again, nano-coated. Other pieces...which you can see, all nano-coated. Anything which is with steel, or copper, iron, any metal can be nano-coated. Even we nano-coated gold.
This is the wires which we saw, we put in the system. These are literally, every one, every single layer, is nano-coated. These materials, like these wires, have been tested by the universities in Europe, and they have been confirmed to have the characteristic of it.
This is another nano-layer.
These are copper sheets, which is used in batteries.
This is copper oxide...nano. In reality worth a lot of money, because it can be used as a superconductor and insulator.
But there is one secret. You can not expose these materials to air to the point of use. So you have to keep them away from oxidation. Any further use, you bring them out of the major box, the main box.
So, let's see what happens to this.
As we said before, that's a nanotechnology which we have been involved in.
What is nano-technology?
Nano-materials are literally...create holes, and gaps.
So, what happens?
If you create holes and gaps, what we call P-N junctions, in these materials, this environment creates a specific gravitational-magnetic fields, of its own.
So what happens, this creates a gravitational-magnetic field, on the metal that attracts another material to itself, because it creates its own miniature earth on the metal, and that attracts near enough the materials to it. 17:27
So what actually happens, is that...Let's say this is the gap on the steel which you just processed. The gap is big enough to accommodate the cesium So, the cesium gets locked into the metal.
On the other hand, you have another material. Let's say there is another radioactive material which is in the water. Or in the land. So, you lock that too.
This is the process. So, what you do...you can do two, three different processes.
As we said before, you can put the material in land, but the best solution for it, is to mix, to water, the land In a very simple way. Allow the radioactive material to become some sort of moist and mixed in the solution. 18:24
So, what happens, this solution now, this technology of putting water with soil, has been tested by scientists from universities in Japan. We have seen their process, they have shown us their technology
So, what they are doing, they are literally mixing in the soil, top soil, with water, and extracting the water. And they measure how the radiation level reduces by washing. But, then they have water in another tank. They have to dissolve it or collect it and find a solution for that. 18:59
With this method, all you do, you literally mix your materials in the sand, in the soil, in the water. You have two options. Then because you have metals, you can run a magnet, you can create a magnet, and all you do...the magnet, with the cesium or radioactive material attached to it, is extracted.
These magnets can be temporary magnets induced by current, or magnets which can use solid magnets. Then you have decontamination and how to remove them.
The best we suggest is, magnetic plates as you see, you can run over the land, and when you've collected all of the materials that have deposited like the nails. you extract it, and you literally give it back to Tepco. Tepco can do a lot with this.
So, in fact, all you do, you recollect all of the contaminated materials back in.
What does your copper wire do? Attracts at different time. In turn, you collect these materials. The wire...the same process.
So, all you do you extract, clean up the land, and you allow the material to be collected in different form. You can see that there's another nail, connected with some more material. All you do, is you deposit it back and when you demagnetize, drops in. 20:32
So now, we haven't solved the problem, but at least we have managed to decontaminate the land. The process in there, when it is collected, is for Tepco and the Japanese nuclear industry to sort out.
Then you go back into the water contamination. The water contamination is very much the same. You add what has happened in this process. The materials, which has uranium, plutonium, whatever, has been mixed in the water. By allowing, by putting these materials in the water, all you do is capture them. Again, attached. We can physically remove them. You have different shape and form.
As you can do the same thing. You can do the same back in.
Again, the same with the nails...The nails...you attract different radioactive materials. There is a process what as known as "dragging". you can use a wire mesh in the farmland, and just literally drag across the water. You absorb more material this way.
We tested this, and it works, and it is correct. In a way, with two or three time the same process, you can decontaminate.
But, at the same time, in a very simple way, if you have what is happened now with Tepco, collecting all these soils in these blue bags and black bags, tons and tons... what they can do, they can mix like the metals like iron and coppers, into the sack, or empty the sacks in the environment, and all they need to do is literally to hold onto the material they have in the sacks, and empty the product out, what you are left with is residue, which is metallic and is magnetized,
So, you have again different propositions and compositions back together. So in a very simple way, we just used coal as decontaminating material, or filtering. Now we use nanomaterials. (22:51)
Nanomaterials are literally full of holes. They are the best filters, not only for materials, but for magnetically, gravitationally, induced materials like nuclear materials, like cesium.
Why is cesium so radioactive?
Because it has a higher number of neutrons. and the neutrons are trying to decay to a lower level, which is an electron and a proton. So they release more of their energies. so, you have a large number of neutrons in the center of the radioactive material, and these rapid energies for decay dictates how much magnetic-gravitational fields are released from this material.
These magnetic fields can link up with another composition, which is other metal, and get attracted to. This is the change of the use of production of new materials. it's unknown, now we are breaking more and more into it.
Now, we go to the next step for Tepco.
(to be continued)
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