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Nov. 2, 2018 - Project Camelot
01:24:40
PLASTIC IN WATER: UPDATE ON DIVINIA WATER WITH FOUNDER STEVE SEDLMAYR
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Thank you.
I'm Carrie Cassidy from Project Camelot and very happy to be here today.
I've got Steve Settelmeyer with me and we're going to be talking about his water, which is called Divinia water.
And we're also going to be talking about the water that's out there and the plastic that is starting to show up in the water and in people's body fluids that is reflecting that.
So I'm going to read a short bio and you can go to my website on Project Camelot dot TV or Project Camelot dot org and also put his name in there.
Just Steve Settelmeyer.
It's it's on the banner that you just saw as well.
But at any rate, I'll go over this very quickly, the bio and Steve, say hello to everyone.
Well, it's very nice to be back on your show, Gary, and to be able to disseminate some information to your viewers that I think will help their health.
Excellent.
Okay, so just to let people know, Steve Settlemyer has over 20 patents to his name.
He founded over five companies and was the youngest recipient of the National Science Foundation grant when he received it at the age of 16.
Let's see, Martin Marietta, NASA, Colorado School of the Mines are some of the larger institutions he's worked for.
Steve Settlemyer is a prominent inventor who invented fiber optic television, which is known as the predecessor to high definition television under the mentorship of Dr.
Rostrum Roy in Arizona State.
And Penn State.
Settlemyer has perfected the state of water with his latest patented invention.
Settlemyer's water was researched by colleague Gerald Pollack.
Dr.
Gerald Pollack, who is quite well known with his investigations into water, who concluded that Settlemyer's water has the highest easy water signature he has seen.
Settlemyer's water is also highly energetic.
Deuterium depleted and oxygenated at 102%.
He currently resides in Idaho with his wife.
So there we go.
So Steve, welcome to the show and please do say some words about your background and how you got into starting your company, Divinia Water, for those that aren't familiar with you.
I started the water company based upon my wife being What we like to refer to as a water snob.
She would go to restaurants and she would buy water out of bottles.
And I didn't think there was much difference between the water then and what we drank at home.
And it turns out I was right.
In fact, I was more than right.
And that's been pointed out this past year, even so.
So I decided I'd come up with a method of cleaning water That was better than what was used before.
The typical distillation or the reverse osmosis invented a device and started studying the properties of the water that that device produced and found out that it made water much more cleaner and more effective than normal water did.
So we started Down the road of scientifically testing this water at different universities to find out what its properties were because it acted different.
In fact, one of the things it did that bothered us at the time was it actually would dissolve plastics in water and it would dissolve plastic bottles.
So that worried us a little bit.
And so we started bottling everything in glass, and then we started feeding fish with this water, or growing fish with it, feeding it the plants, doing all sorts of tests, and find out this water is actually much more healthy than we even recognized at the very beginning.
And so after a while, some people started coming to us asking About their health problems and if this would help their health problems.
We allowed them to drink the water and lo and behold we found out that it was helping with their liver and kidney functions returning them back to normal.
People that were on transplants that actually needed transplants through the Cleveland Clinic and the Mayo Clinic and some of the other large well-known clinics We're drinking the water and they were actually returned to health and knocked off the transplant list.
So we decided we'd study this even further and we're in the process of working with a natural university, the oldest one in the United States, that does clinical trials to produce a clinical trial on this water to show that this water returns people Back to normal.
Getting back to plastics is very interesting because we can't store this water in plastic because of its effect upon plastics.
And it turns out probably most even all waters now that they've found in the ocean or even in the natural resources have plastics in them.
And they're turning out to be natural They're very small nanoplastics.
They're found in fish, most of the fish in the ocean now has plastic in it.
And in fact, one of the reports that just came out not too long ago, over in Europe, they actually took people from all the various countries.
There's United Kingdom, Italy, Austria, Poland, The Netherlands, Finland, Russia, and Japan.
None of them were vegetarian.
Two were regular gum chewers, and six of the eight ate ocean-derived seafood.
And they started studying two different aspects of it.
They studied their gut biome, what they found in their gut, and they found out all eight of them had plastics in their gut.
Then they started looking at their feces, And found out all eight of them had plastic in their feces.
So not only are we eating plastic, swallowing plastic, drinking plastic, but it's now caught up into our human body, into our organs.
It's also being defecated out through our poop, and it's showing up in our poop now.
Now there's concerns about our liver and our kidneys.
These plastics are so small that they're entering into the cell functions or into the cell.
And the cells are now uptaking plastics.
And I think that's one of the reasons why the rise in cancer since plastics have been invented is that 50% of people, of men now, I'm sorry, 50% of men, Will now have cancer in their lifetime.
So one out of two people.
So if you're around the crowd or if you're listening to this and you have two or three males in your home, 50% of them will probably get cancer now.
Of women, it used to be around 32%.
The last figure I saw is now risen in the past couple of years to 38%.
And they're projecting they'll be up to 50% to 60% within the next couple of years also.
So not only have this plastic permeated the face of the earth, that we are now ingesting it.
And of course, it's in sea salt.
If you go to the store and buy salt, they found out 90% of the salt now that you buy of sea salt are now contaminated with microplastics.
So the salt itself In the ocean is now taking up microplastics.
And one of the things that we like about this water, and we eventually will have a clinical study accomplished on it, it actually dissolves those plastics.
So if you have plastic caught in you, if it's caught up in your liver or your kidneys or your heart or any of the other organs, We believe this water will actually help dissolve that and flush it out of your body.
I'm not too sure that isn't one of the health effects that we're seeing now, but people's livers and kidneys return back to normal after they drink this water.
But they also did analysis of fetuses of women that are pregnant and found out 100% of them We're feeding their babies microplastics.
So the fetuses are also getting microplastics too.
So microplastics are prevalent everywhere.
Okay, may I ask you, where do the microplastics come from?
The microplastics come from a lot of different sources.
The first source that they track down Was out of just plastic bottles.
The water that you drink out of a plastic bottle has microplastics in it.
And they found that those have an average of, I believe it was 80 parts per million of microplastics in it.
So that when you reach for that favorite water or your water off the shelf that you buy at your grocery store, you're feeding yourself microplastics.
They found that 17% of the plastics that were in the human biome, in the gut, were actually created from plastic bottles.
So anytime you drink anything out of a plastic bottle, you're drinking plastic.
And of course, our cups are plastic.
If you go to a fast food store and you get a drink and you use a straw, that's plastic.
Then the other plastics that they find are from your clothing, they're from the rugs, they're from the carpet, they're from the coating that they put on couches, and even your clothing.
Every time you wash your clothing in a washer-dryer, in the washer, a lot of our clothing are made out of plastics.
The minute that you wash your clothing in Your washer, it shreds some plastic off of it.
Nanoplastics, very small plastics, that's going into the water supply.
That water supply is then used and treated.
It's either dumped back into the rivers or we drink it again.
It goes in the rivers, it goes in the aquifers, goes in the lakes.
Eventually that goes either to the ocean again We're sucked up in the atmosphere.
The atmosphere then rains basically plastics down upon us now.
Those plastics are then being, that water that's in the plastic is then eaten by cows and lambs and chickens and horses and every other known animal on the face of the earth.
Of course, other animals eat them.
They also defecate.
They poop.
All this water, contaminated water, is also going on to all the plant life that we eat.
They even found that a lot of the vegetables now, whether it's organic or inorganic, it doesn't make any difference, has plastics in them.
So through just the natural life cycle of water, everything is getting rain plastic on it now, or eating it or digesting it one way or another.
We're just a plastic society right now.
Okay, so this has a long history.
Now I'm wondering, in terms of plastics, And in terms of your water, you say your water dissolves plastic.
Can you explain to us, I know you're a scientist, so bear with us, but if you can explain how is it that Davinia water dissolves plastic, and in these other waters that you're drinking plastic, it sounds like they also may have some effect in dissolving plastic, or at least Leaching the plastic into themselves.
So what is the property of water such that plastic and water seem to have some kind of, I don't know, osmosis or exchange?
And then how does your water differ from regular water in this respect?
Well, the most ubiquitous solvent on the face of the earth is water.
Period.
It created the Grand Canyons, created the oceans, it's created A lot of the mountains, the carbon in the mountains, it creates icebergs which carve the mountains, etc., etc.
And so it's a very powerful solvent.
And the reason it's a solvent is because the basic nature of waters is made up of hydrogen and oxygen.
And the hydrogen happens to be a molecule that the body uses along with the oxygen.
But the oxygen is a very Hungry molecule, and it likes to do reactions.
For instance, you put in oxygen and iron, you get rust.
That's what rusts our cars.
It's very aggressive.
So oxygen likes to tear molecules apart, along with the hydrogen.
The hydrogen acts as an acid.
So these two molecules act as a very good solid.
They like to tear other molecules apart.
Except that they can only do it to a certain amount because of the spins on them.
And for instance, plastic is, most of it is made up of a CHO compound, carbon, hydrogen, oxygen.
And now they're putting some polypropylene, which might have some potassiums or other Molecules attached to it, but basically water, when it comes into contact to that, starts ripping the molecules apart, dissolving them, leaching it, if you want to use that term too.
It pulls it out because it has a stronger affinity to pull molecules apart.
So, and that is all determined upon the spin of the electrons, how many electrons A particular atom might have an affinity.
It's like if you get a group of boys and girls together, some of the boys and girls will be kind of attracted towards each other, and some might have more affinity for others.
Maybe some like tall ones, maybe some like shorter ones, heavier ones, lighter ones.
Blondes, brunettes, redheads.
We all have a bias.
Well, that's the same thing as molecules.
They have this affinity or this bias.
And it depends upon how it's made up.
So, when water comes into contact with plastics, certain plastics that likes to leach out or pull away from the main body and Do a chemical reaction with it.
And that's determined upon what I, as I told you, the electrons and the protons and the neutrons that are in a molecule.
A molecule consists of basically a proton, a positive particle, a neutron, which is another particle, but it doesn't have any charge to it.
It's just a heavy charge.
And the electron, which spins around the outside shell, or the outside of the proton, and that has a negative charge to it, which is how we cause electricity.
The electricity that is generated to run our computers, to make this podcast possible for the sun to shine, Everything else is generated by electrons.
And those electrons like to match up with other electrons from different outside sources.
And that's what pulls it, rips it apart.
Well, each one of those electrons has a different spin to it, too.
It can spin in one direction from left to right or maybe right to left, from top to bottom, bottom to right.
And they're pretty They all dance to a different tune.
But if you take all those electrons and you make them all dance to the same tune, if they all behave in the same way, then what happens is that it creates resonance, it creates a stronger force, and that force, for instance, everybody knows what a laser is.
Well, a laser is just a bunch of light Electrons dancing in the same direction.
Whereas in a typical light bulb, you have light dancing in all different directions.
Okay, but let me ask you, how does your water differ from regular water in the way that it leaches or the electrons leach the plastic?
In other words, it sounds like it's more aggressive in doing so.
It's much more aggressive because our water is the aligned water.
We make our water.
The electrons tend to dance in one direction.
And because it does, it is very, very powerful.
And it can pull things apart even more.
And when it runs into plastics, what it does, it rips it.
It shreds them even more.
And it makes them small enough that your body can get rid of it.
So if there's plastics inside the cell, it actually pulls that plastic out of the cell, puts it back into the bloodstream, and then you can either urinate it out or defecate it out one way or another.
Okay, but why would people make plastic bottles who are not, are they just unaware of the science?
Do they have no idea?
I mean, I think if you started putting a liquid into a container, one of the first things you might want to do is find out whether or not the container would contaminate the liquid, because that's in essence what is happening.
Curious about money.
It's all about money.
Remember the cigarettes?
They knew it would cause cancer for a long time.
And they didn't care because they were making money.
The reason they use plastics is because it's lighter than glass.
They can make money now.
A lot of money.
And when you ship water, of course you're shipping the glass and the water at the same time.
Or you're shipping plastic.
And water at the same time.
And plastic just happens to be cheaper and lighter to ship than glass does.
So they know perfectly well what this plastic's doing.
They've probably known for 40, 50 years exactly what the plastic's doing.
They know what they're doing to people.
There's no question about that.
It's all a matter of money.
Okay, but what about the people who...
They themselves are getting screwed by their own product.
They don't care.
It's about the money.
So they don't care about their kids.
They don't care.
I mean, maybe they don't know it's as bad as you know that it's, you know, in other words.
It's bad.
There's no question they know it's bad.
They've known sugar and soft drinks was bad for 40 or 50 years.
Right?
Incredible.
And they still put soft drinks up with these.
Yeah.
We know how bad sugar is.
It's just they finally got caught with their hands in the pot.
The same with the cigarette ends of the street.
They employ very smart people.
They employ chemists that are some of the best chemists in the world, and they know exactly what this is doing.
They're covering it up, and it's about the money.
To me, it's incomprehensible because They're screwing their children too at the same time.
Right.
And their grandchildren.
But so do the cigarette people.
They didn't care either.
Look at all the oil pollution that we have.
Look at all the traffic dumped into the rivers.
They know that.
Look at the Teflon.
They knew Teflon was bad for how many years before they finally got caught at it?
Right.
They just don't care.
It's about the money.
Well, it seems like I appreciate that.
I mean, certainly the people that own the water companies and made a decision, I guess, you know, and the same thing goes with our cell phones.
They had a choice.
They could get a certain kind of frequency.
Same thing with the electricity in our houses.
All of these things are very negatively based and they could have put, you know, given us cell phones that actually were good for our health.
Um, and I imagine the same thing with electricity, you know, the frequency and the electricity in your house is very damaging.
So, and light bulbs and the whole thing, it just goes on and on.
But this thing with water, it does seem like this is coming to a head now.
It's, it's out in the public domain more and more.
I've been hearing this.
Um, so you yourself, I guess, have been investigating this.
Probably you were aware of this for a very long time.
Uh, Again, your water, is it simply the spin?
Can you be more detailed or can you explain more why your water might necessarily be better, not only with plastic, but a number of other impurities that go into water?
Yeah, first off, we have no impurities in our water.
Our water is extremely pure.
It's zero parts per million.
We take great efforts to make sure that there's absolutely nothing in the water.
I'm talking about plastics in water and a lot of bottled water.
You also must remember that a lot of bottled water is nothing but tap water, that they actually might run through a filter, maybe not, and then put it into plastic bottles.
In other waters, there are, and people like to say, well, you need your minerals out of it, but you have to remember You know plutonium is a mineral.
Uranium is a mineral.
They found out one of the jurisdictions down in Texas that one of the towns knew for over 20 years that their water was radioactive and they never told the populace because it would have cost money to fix it.
Right.
And they didn't want to spend the money.
And people go well don't you want minerals in your water?
Well I would really like to have a choice of what minerals I do have in my water.
Absent of that, I don't need minerals in my water.
I'm supposed to get minerals from my food.
So when people say, well, it comes from a natural spring, and that's correct.
It does come from a natural spring down in the earth, and that natural spring actually has radioactive material, arsenic in it.
It has plutonium, uranium, lithium, Along with calcium, potassium, magnesium, which are in a certain amount good for you.
So do you want good with bad or do you just want good?
I kind of just want good.
I don't want good and bad together.
Right now, 60 million Americans in the West, mainly in the West, are drinking radioactive water.
And they know it.
60 million Americans Are drinking radioactive water.
Well, what do you mean by that?
Because they're drinking tap water or because they're drinking bottled water?
Both.
Okay.
And, you know, like all these spring waters that are out there and they get rated the highest and all this.
So you're saying they're not good either.
They are full of radiation.
All they do is report that they have minerals in them.
They don't tell you what minerals are in there.
Right.
They don't tell you there's a little bit of uranium, a little bit of plutonium, a little bit of arsenic, a little bit of bismuth, a little bit of lithium.
Okay, well, hasn't this been going on, I mean, since the time we're drinking water?
I mean, obviously the plastic issue is, I guess, a 20th century issue.
But prior to the 20th century, there would have still been radioactivity.
I mean, radioactivity is normal, especially in certain...
High energy sites on the planet.
Isn't that right?
Yes, but remember this little thing called World War II and the nuclear bomb?
Yes.
And all the testing that occurred.
Do you know how many nuclear tests that the United States has put radioactive material into the atmosphere with?
No, I'm sure that's pretty huge.
Over 500.
Right.
So we have concentrated this radioactive material.
We've dug it up.
We've found it.
We've processed it.
It takes, I don't know how many tons, it takes a thousand tons to produce one ounce of radioactive material.
And then we put it in a bomb and then we blow it up and then we sprinkle ourselves with it.
And so we have been sprinkling ourselves with this contamination which occurs Very little in nature.
And we've sprinkled it all over the planet now.
The Russians, of course, blew off the largest atomic bomb that has ever, nuclear fission bomb that has ever been tested.
It was a thousand times bigger than what we ever blew up and sprinkled it across the planet.
So there's been several thousand nuclear bombs that have been tested and blown up so we could test it.
Right.
We took all that stuff from a very concentrated source of the Earth, we concentrated it from a very diverse section of the Earth, we concentrated it, we then blew it up so that it would go up in the atmosphere, and of course it was so contaminated, so concentrated, that it made everything else radioactive, and then we sprinkled it back down upon us again.
All that dust that has come back down, all the contamination that has come back down, has gone into the water supply, has gone into the oceans, has gone into the lakes, to the reservoirs, the aquifers, that would have never been there in the first place.
Okay, well, this is not even talking about the current state of the nuclear power plants that are actually leaking at this very moment.
In fact, of course, Japan has got the worst problem with Fukushima, but I understand from some back-channel sources that Croatia, somewhere in that vicinity, in Eastern Europe, there is another very big leaking power plant.
And there is one here in California, in Southern, South California, which is...
God, I can't remember the name of the power plant.
But anyway, and there's a bunch of them along the New Madrid Fault.
Have you looked into all that?
No, that becomes a little overwhelming.
I mean...
I probably get a new article every day now on a town that's been poisoned, a new leak, a cover-up that's been going on for 20 or 30 years.
Of course, you have the Detroit, Flint, Michigan problem where lead has been in the pipes.
Even in this town, as soon as that hit, they went and tested the high schools and found out the kids here have been poisoned for 20 years with lead.
In the high schools.
So we went through a massive dig up of all the pipes here to try to get rid of them as fast as we could.
You go into large cities, LA, Detroit, New York, any of the large cities back there, and of course they're all lit pipes from 100 years ago.
So not only radioactivity is the major problem, and there's a little place you I can't remember a place called Three Mile Island.
Right.
That leads to a lot of contamination.
Of course, then all this lead, and you say, well, how do we do that?
Well, we went out and we dug all this lead up, we melded it, we put it together as pipes, and then we ran our water through it.
And of course, when we ran water through it, then the lead contamination was possible.
So, It seems like every time man does something to build an infrastructure, they use the cheapest material they can.
Of course, that's just human nature, the easiest material.
And then we use that for our infrastructure, and that gets worse and worse.
Plastics were derived because it was cheap to ship.
I mean, that's the basic principle of plastic.
Pound for pound is cheaper to shape plastic than it is a good metal.
Maybe a stainless steel, which doesn't curl.
Well, last time when you were on my show, you guys talked about the fact that Water being shipped in bottles is actually a good thing because you said, if I understood you correctly, that glass naturally goes back into the environment.
Is that right?
New Zealand, I love this.
New Zealand has a lot of breweries, right?
A lot of beer breweries.
And they were getting a lot of glass.
And New Zealand also has a problem.
I think I even mentioned this last time about the shores, how all the shores are eroding on the face of the earth and we're losing our beaches.
So they came up with a device that they're putting into the bars.
So after you have your beer or your water or whatever and glass, you walk over and put in this machine and in five seconds it produces sand again.
And so New Zealand at zero cost is now rebuilding all their beaches.
And of course they recrossed the sand again into bottles.
So they're doing zero contamination now.
That's right.
And they're now thinking about outlawing plastics in New Zealand because they don't need them anymore.
And they rebuild their beaches.
Here in this town, we have been able to help pass the first glass recycling mall ever here in this town in Idaho.
And so now they're recycling glass.
And that is going to relieve the surrounding areas of X number of tons of glass in the dumps around here, the landfills, which of course does no harm.
But they're going to take it down, recycle it, And produce more glass products now.
And that is a savings of the environment of tremendous dollars.
But in the future, what I'm going to do is I'm going to go down to New Zealand and find these people that make the glass recycling and buy one of the pieces of machinery for this town here and set up a glass recycling for this town.
And we're in northern New Well, we're northern.
We're in Idaho.
And so I'll let people recycle their glass bottles here.
And then I'm going to donate the sand to the city for our streets for the wintertime.
So that means that we won't have to go dig up gravel or sand anymore.
We won't have to use excavators to go dig it up.
We won't have to use gas to go dig it up.
And every time someone drinks something out of a glass bottle here, they're saving their city, they're saving it from pollution, they're saving it from contamination, they're saving gas, they're saving the air, they're saving everything.
And all they have to do is drink and put it in the machine.
Yeah, that's fabulous.
Well, I wish that would catch on.
Now, someone's talking in the chat.
We have a chat room alongside here.
They were mentioning fluoride.
And, of course, everyone knows the dangers of fluoride in the water at this point.
But what someone was saying, well, how about distilled water?
So what about the properties of distilled water?
Is that helping To get rid of some of these impurities or not?
Yes, it is.
Distilled water is...
Yes, it is.
But distilled water is not molecularly changed.
Distilled water has had the pollutants taken out of it.
One of the things I haven't gotten into in this hour yet is that ours is also deuterium depleted.
Remember how I talked about protons, neutrons, and electrons?
And water is made up of H2O. It likes to be made up of light oxygen and light hydrogen.
You can also have heavy hydrogen and heavy oxygen.
And when you do, that makes up something called heavy water.
And there's been several movies on heavy water.
The Germans used it.
We used it during World War II to make nuclear materials.
And we still use it today, and it regulates the nuclear reaction.
Except in your body, if you have too much heavy water, you drink too much heavy water.
First, it'll kill you.
And secondly, the water today is 156 parts per million of heavy water.
And what the heavy water does is it has an extra neutron And just like in nuclear reactions where it slows down the radioactive particles, a neutron in your body actually stops you doing chemical reactions.
It slows down your chemistry of your body.
And it's not good for you.
That's why if you drink too much heavy water, it kills you.
Your body just stops functioning.
Well, All across the world, it has different levels of this heavy water in it, depending upon several things.
How old the geology is, how much radioactive material it's got, whether it's had a lot of rainfall, not rainfall, etc., etc.
And so one of the things, a byproduct of our production of this water is we have what's called deuterium-depleted water.
That means that We remove some of the neutrons out of the water, the heavy water, to make it light water, and that makes it much more bioavailable to you, to the human person, to be able to do chemical reactions, to remove plastics, to have the mitochondria use it for energy.
Distilled water does not do that.
Distilled water does not cause a deuterium depleted.
So, yes, distilled water is good for you, but it's also, because it hasn't had its molecular arrangement rearranged, it's kind of almost a dead water, too.
It doesn't help your chemical reactions, but it doesn't put more pollutants into your body.
So, it's kind of 50-50.
It It doesn't help you get more energy or do better chemical reactions, but on the other hand, it doesn't put pollutants in, which can cause diseases or stop some of those too.
So it's kind of the egg and the chicken, what came first.
With our water, we have made it a molecular change in it so that We found out that most of the chemical reactions are four to eight times faster and more efficient.
And that includes in the human body too.
The human body needs one million molecules of water per second per cell moving through it.
So every cell in your body should have one million molecules of water flowing through it every second.
And what that does is it does two things.
First, it creates energy.
It helps the mitochondria actually do the chemical reactions and it takes out the trash or it carries the trash out from the reactions that occur in the cell.
So as soon as the reactions are done, the water transports it out back into the blood system And then that goes to the liver and to the kidneys for filtering to be removed from the body.
Distilled water doesn't really do that either.
Distilled water doesn't have that property of being able to enhance the flow through a cell and take out the trash at the same time.
Okay, so...
In terms of your water defining it, because I'm actually showing some information on your website here on the screen right now, but it has certain properties that you used that you describe it as, okay?
And deuterium, easy, and...
And I think there's a few other terminologies that you use.
Can you explain those various terms?
Yeah, I talked about the deuterium.
Deuterium is heavy hydrogen.
The normal formula for hydrogen or for water is H2O. Two hydrogens and one oxygen.
And the hydrogens in them It can either have a neutron in them and a proton or just in the proton.
If it has a neutron and a proton in the middle of it, then that's heavy water.
If it doesn't have the neutron, then it's lighter water.
It's like if you had two bowling balls, one in each hand.
Normal hydrogen, you should only have one bowling ball.
In heavy water, you have two bowling balls.
And, of course, it makes it harder to handle.
Okay, how do you test for this?
What we did is we went to, and we're the only ones that we know that's ever done this here in the United States, is we went to UC Davis in California, and we went to their heavy isotope lambs, Which is the laboratory that they have set up to test isotopes at UC Davis, which is in Davis, California, University of California, Davis.
And they measure the isotopes, which means molecules that are kind of like each other, but they might have an extra neutron or proton or electron or something.
They're similar, but they aren't exactly the same.
So they have different properties.
So we took our water there.
They have a machine that cost them probably a million dollars to test this.
And a PhD that ran it that it took almost four to five years to learn how to run this thing.
And so it's a very intensive test and you just don't go to Your local college and say, hey, can you test this deuterium for me?
There's only two or three places in the United States that can do it.
When we took it there and we worked with them on testing it, we found out that we were the only ones that ever brought them water to have it tested for deuterium depletion for health reasons and drinking reasons.
No one had ever done it before.
And I talked to them not too long ago, And no one has done it since.
So there's only one or two places in the United States that can do it.
And I've talked to the other place too, and they said no one's ever approached them either.
Well, that's very strange.
So are you saying, but is regular water in bottled water and in our tap, is not deuterium depleted?
Is that correct?
That's correct.
And in fact, it could be the opposite.
It could have more deuterium in it.
And this deuterium, you know, to go back from what you were saying, is basically these, I don't know if you call it isotopes, or what do you call it that is...
Deuterium is a hydrogen with an extra neutron in it.
Okay.
And is that radioactive?
What makes it radioactive?
Or is that something else?
Have you heard of tritium, which is the...
The glow-in-the-dark stuff on the dials of your watches.
Okay.
And the reason it glows is because it's radioactive.
And that was banned in the United States because people were finding out they were wearing watches on their wrists that were actually radioactive.
So you taped a radioactive source to your skin and carried it around for a long time.
So Deuterium is what is used in the nuclear industry to slow down radioactivity.
But deuterium also slows down chemical reactions.
So it slows down the chemical reactions in your body.
And if there's enough deuterium, it slows all the chemical reactions down so you die.
Okay.
And stops on it.
So what you want is you want to deplete that.
You want to make it go away.
You want it to be less.
Alright.
So what you have to do is go through a process of depleting that so it becomes light water.
And so that's what we've done.
We've made our water lighter than any water that you can drink out of the tap or out of the bottle.
Right.
So it's actually lighter water.
Okay, now, how are things going as far as your process and getting the word out about your kind of water and so on?
Is this kind of increasing?
Are people picking up on it?
Are other companies even considering doing things like yours?
What can you say about that?
As regards to other people doing what we're doing, no, no one does what we do and we have a patented process and we also have a lot of trade secrets and nobody knows exactly how we're doing it.
We keep it hidden.
As far as getting traction, we're starting to get a lot of traction.
Everybody is starting to become aware of what's in their water and how it's starting to make them heal.
And in their health properties.
We have had several well-known, famous doctors approach us and start testing it on their patients and using it.
And we probably have maybe 40 to 50 doctors now that are actually using this water, prescribing this water to their patients.
And telling them to get off of pharmaceuticals, off of drugs, that this is far more healthy for them than taking pharmaceuticals.
And we've had several people that are under the doctor's orders that are now repairing their livers and their kidneys.
One of the nice things about drinking our water is it has no side effects.
You don't grow an extra eyebrow.
You don't Throw up.
You know all the warnings that they put when you're watching TV or you're listening to radio about if you take this drug then you're gonna get depressed or you have bloody stools or you want to go kill 50 people or you know whatever the side effects are.
We don't have any of those side effects.
All you do is drink this water in place of the normal water.
The normal water being the tap water.
And it starts repairing your health.
And we now have had doctor after doctor help us with that.
And so we're starting to ship large quantities of water to doctors now that are prescribing it for their patients.
And I'm talking to well-known national doctors.
I don't want to release their names, but if I told you, you'd know them right off the bat.
Okay.
So we are going through this Process of applying for clinical study and eventually that will be released and people will know and it's the first ever clinical FDA approved study that will talk about the health benefits of water.
Ever.
And of course we're going to also include whether our water and we know it doesn't but We'll also include in that report about the plastics and part of the study I hope to have done is shows that it's dissolving the plastics in the human body and removing them so at the end of the period you don't have plastic in you.
Okay, now I am wondering whether or not...
I sent you a link that had to do with Deborah Tavares and her work, and she is releasing information about what's happening with water and it being...
Us being forced to recycle our water through the pipes and coming back to us.
So it's like sewer water is being pushed as actually drinking water, I guess, in normal drinking water.
So is this something you're familiar with at all?
And can you tell us what you have heard about this?
Yes.
What we actually refer to is Toilet to tap.
What happens is that they, because of the shortage of water, it's going to get worse and worse in the future, is that municipalities are taking their sewer water, toilet water, running it through filters,
and it's called flocculation where they put chemicals in it to Have the feces drop to the bottom, run it through some more filters, then pipe it back into it again.
So what you're actually drinking in major cities now, in most major cities in the United States, is what we call toilet to tap water.
You're drinking anywhere from 25 to 35% recycled sewered water.
Okay, now Debra Tabaris says she's done a lot of investigation on water and she says it isn't, there isn't a shortage of water, that there is a natural, I think it's like an under the earth or ground water, whatever.
That is pretty much unlimited.
And, of course, we know there's water in the oceans that can be, you know, put whatever filtered or turned into drinking water.
So those are processes that can happen.
But are you aware of that, you know, sort of study?
This brings on the whole question of where is water generated in the first place?
And how is it generated?
And how did it get here?
And Most people, when you speak about water, understand or have been told that maybe a comet crashed into us or, you know, water magically appeared.
Well, one of the byproducts of nuclear fusion, which is at the center of our Earth, happens to be hydrogen.
One of the elements that are generated.
Hydrogen is a gas.
Extremely hot and it comes out through rocks even though they are molten.
It's a gas that seeps out through it.
But another byproduct of the decay of uranium and plutonium and the radioactive materials is oxygen.
So now you have oxygen and hydrogen Being emitted from the center of the Earth, circulating up through the core of it, up through the mantle, and when they combine, when they meet each other, they form water.
And scientists now are starting to look at that maybe all the water that's gone here on this Earth is not extraterrestrial, and they come from someplace else.
The Earth actually generated the water.
And, of course, they think that could be a possibility for oil, too.
That's why they're finding...
As you know, I went to Colorado School of Mines.
When I went there, they did not even talk about plate teutonics.
In fact, my professor failed me for mentioning plate teutonics because he didn't believe in it.
Of course, it's now well-known there.
And the common sense was that all oil was generated by dinosaurs.
But dinosaurs can only be found for a particular death on the face of this earth.
When they start drilling down 15, 20, 30 miles where dinosaurs never existed, they're finding oil.
And it's not organic oil.
It wasn't made from dinosaurs.
It's oil.
And the only reason they can think about why that oil was made Why it was generated is because it was generated from the decay of molecules from the earth.
The same as water.
So I'm one of the proponents of that because we have many nuclear fusion going on in the middle of the earth and all the materials, all the rocks are decaying.
When they decay they make oxygen and hydrogen which is lighter than Anything else and that comes up to the surface.
So yes, there are vast amounts of water stored in the earth.
The practicality of getting to it is another issue, depending upon how deep it is.
How practical is it to drill down 10 miles to get to a good water source?
That can be a problem.
One of the problems that happened several years ago when they were drawn out off the coast of Louisiana.
Of course, one of the heads broke off of the oil well.
And when that happened, continuous oil flowed out.
It was the Exxon accident that occurred there.
And one of the things they were surprised about was the amount of pressure that was behind that oil.
It was unforeseen.
It was tinted a hundred times more pressure than they'd ever seen.
And that's one of the reasons why the head blew off.
And that's the other reason why they could never cap it.
And they finally got it capped.
But they were afraid of that.
Because they didn't know how infinite that oil was down there.
And they didn't know how much pressure was out of there.
And chances are if they would have left that keep seeping out, it would have caused major catastrophe to the oceans everywhere.
Who knows how much oil was down there?
And now they're destroying the fish and everything else.
And with that oil, with that pressure being relieved, Removing that much fluid, they didn't know what that would do to the mantle and causing earthquakes.
And it might have collapsed whole continents.
So they were much more worried than they were letting on to the public about that.
It's like a big balloon that's inflated and all of a sudden you take that inflation away.
But guess what?
Then it collapses.
That's also one of the problems with some of these deep water sources.
That's one of the problems that hurts down in Florida.
When they pump the aquifers out, that's why they're getting these huge sinkholes.
Because it's just collapsing.
There's nothing there supporting them.
So if you start taking a lot of fluids out of the earth, and especially California, be worried about that.
If you took too much out of that, That would cause that mantle to collapse.
And of course, when the mantle collapse, you have major earthquakes and even generate some volcanoes off of it.
Okay.
Now, when you say liquids, meaning oil, water, and I'm not sure what other liquid you might have in mind.
Hydrogen gas.
Okay.
You know, we're talking about moving into this hydrogen, the carbonate liquid nitrogen.
You know, liquid gas, everything else like that.
That generates a pressure which pushes on the rocks, which keeps them up.
And all of a sudden, you remove that pressure, there's nothing supporting it, and just the weight of the rocks will collapse.
Okay.
So, going...
Go ahead.
So, I'm one of the scientists that are saying, just be a little cautious about that.
On the surface, it might sound good.
On the other hand, let's not start collapsing parts of our continents because we're pumping oil out or gas or water or whatever.
We have more than enough water right now on the surface if we know how to treat it properly and reconcentrate everything that we unconcentrated and put it back again.
I'm a big proponent of, and no one's doing this at this point, is taking all the contamination that we've dug out of the earth, we mined, we concentrated it, we used it in products.
Those products, of course, have come back to harm us.
Let's take all that stuff, reclaim it, and put it back down in the holes that we created in the first place, and cover it back up again.
Okay.
Now, among other things, what else?
You know, I don't want to keep this going too long.
I know you're a very busy man, but is there anything else in the water that you are starting to notice, you know, in normal water, whatever?
Because I'm also thinking about the nano, what we know as chemtrails.
There is There's other things in chemtrails that are very, very bad.
And it does involve nano of all kinds.
So it would make sense that all of these things are coming down into the groundwater and people are drinking those as well.
Any thoughts on that?
I totally agree with you on that.
And the problem is those that are getting caught up in our bodies and The normal water which has now been so polluted doesn't have enough activity to remove those from us.
Our particular water has a lot of energy in it.
We've gone through some very exotic testing which is called Raman spectroscopy and that's one of the tests that NASA uses to determine The materials on distant suns and planets.
And one of the reasons they started looking at it, they wanted to find out if water was on other planets.
And if water existed on other planets, exactly what does it look like?
Water could be a different form than when it is here on Earth.
In fact, on Mars, they're now finding water under the surface of Earth, Just like your friend talked about, that maybe made it to the surface at one time, but has retreated.
And now they're trying to figure out, how was water generated in Mars itself?
Right.
So, what we want to do is, we want to know that that water is the same water as here.
And of course, if we go to a distant planet, one of the first things we're going to need is water.
We can't carry enough water with us.
So one of the obstacles to exploration of the solar system of the universe is water.
And how do you get water?
Hopefully water will be where we're going.
But if it is, is it water we can use?
And is it the same form that we know now?
And why I say that is our particular water has been around about 4.6 billion years or 5.2, depending upon what the aging is.
And that particular water has undergone bombardment from the sun with its x-rays and UV rays and has been brought up to the surface.
And the solar winds have stopped some energy, but we've had energy in our water We have a certain amount of sun that hits it, humidity, we have a shell around the Earth, etc., etc.
And that has all created water that we can use now.
But what if that doesn't exist on another planet?
What if they've never had anything to protect it from high radiation bombardment as we do here on this Earth in a distant planet?
What if their sun doesn't generate a magnetic shield like ours does?
And that thing is just bombarded by high radiation for 10 billion years.
And we land there and we find out that that water is so different than what we thought it was going to be that you take a drop of it, you drop dead.
So they employ something called Raman spectroscopy.
And this Raman spectroscopy Spectroscopy looks at, as I talked about the spins and how much energy is in each one of those electrons, how much energy is in the neutron, the proton, etc., etc., and how that interacts with the human body.
And so that's one of the first things we did because we found out our water is different than water that is currently on the face of Earth.
That's why we call our water Renatured.
Because we think this has turned this water back several hundred thousand years to when man first appeared on the face of Earth and was drinking water that helped him evolve.
So we think we've taken the equation of all the pollution that man has put into it and we've returned it back to normal.
Okay, now water is said to have a memory, and I think that that's true.
Yes.
And how can you relate exactly?
Like, if you say you've taken the water back, it is kind of fascinating.
And so I have a question about the memory of water, but also...
I did an interview with a guy named Pere Vila, and he studied the Knights Templar in great detail, and he believes he used to be one in a prior life.
But he found that in cities they put the water, it's not only the pipes themselves, but it's the fact that the water gets in right angles.
And it flows through the city in a certain way before it actually gets to your tap.
And then in making it go in right angles, it's very bad for the water.
And because water has memory and it's living as Masaru Emoto said and how we affect it with our emotions, etc.
So can you talk a little bit about how you think what that dynamic is?
And are you aware of that?
The concept of memory and water is extremely easy to explain.
It has nothing to do with spirituality, although it does, but it doesn't.
It isn't a superhuman being that causes the memory.
The water isn't living.
It doesn't have organisms, that sort of stuff.
Remember how I talked about how the hydrogens and oxygens kind of like each other and how The electrons have different spins to them.
And so, when it first is generated, when it's first created, water comes together and there's nothing to interfere with it.
So, it has one structure, one organization.
It's like maybe playing this tic-tac-toe.
And with tic-tac-toe, you have No memory, right?
There's no X's or O's.
And so when another molecule comes along, whether that molecule is introduced into the water or it hits up against the wall and it has to take a right angle, you make an X. It's changed the water.
Something is changing that water.
The molecule has spun a little bit differently.
The electron is changed because it has more magnetic force or anything.
Any little thing, any interaction with water changes it.
And it changes it so it remembers.
When I say remembers, it changes it so it stays that way.
It remembers it.
That's what memory is.
So let's say you put an X in the middle of the tic-tac-toe.
Well, you as a person are going to remember that X, right?
You know it's there.
Well, the water knows it's there.
It knows that it's done something.
So let's say it falls down a little bit later, and you put a zero up in the upper right-hand corner.
Well, that's memory, right?
You know, you have an X and an O, and it's on a piece of paper, and you can look at it, and you know that's there.
You know something's changed.
It used to be this nice sheet of paper with just crosses on it.
Now it has an X and an O on it.
Same with water.
Let's put a little bit of lead in it.
Well, that lead causes a twist to the oxygen or a twist to the hydrogen or a little bit like that, and it stays that way.
So that little twist is a memory.
If you were to untwist it, you would find out the only thing that makes it twist that way is lead.
So that's memory.
It knows that lead was In there somehow, so it's twisted it.
So all these interactions that water has to be able to get to us, whether it's sunshine or whether it's lead or whatever, causes a change in that water, and that's memory of water.
And I firmly believe that.
Now how do you reset it?
Well, what you do is you untwist everything.
You make everything go back.
You reset.
You take all the memory out of it.
You undo all the twists.
You undo everything that made it twist by putting energy back into it to untwist it.
But that's kind of what happens on the face of Earth now.
And it's called sunshine.
Because sunshine imparts energy to the water so that it has energy to untwist.
And it also resets it, and that's why water running down through streams, and it gets oxygenation and stress oxygen, and it runs over rocks and through bubbling glands, and it's a nice Shazani day.
That water, everybody recognizes, is pretty good water.
If somewhere a man hasn't contaminated, or fish haven't contaminated, or something haven't contaminated, That's pretty good water because it's reset back to its normal state again.
That's what memory is in water.
Very easy.
Every time you do something in water, it twists it.
If you take one of those pipe cleaners and twist it, Carrie, it's energy.
And if I take it away, it stays that way, doesn't it?
And that's memory.
Sure, but In terms of the water, can you relate this to the Masaru Emoto experiments?
Because that would appear that it's not just sunlight that changes water, but it's actually us that we get into some kind of state of resonance with water, or you can.
Same thing with your food.
Same thing with any of the, you know, I guess you might call them electrons in our universe around us.
But in essence, we can affect it through our thoughts.
And emotions.
Our emotional life is water, I think.
It's symbolized by water anyway.
So there may be a relationship between orgone and an interplay by orgone on water.
So can you relate to that?
Oh, yeah.
I just use the mechanical method of twisting, and that's energy.
I'm putting energy into that pipe cleaner, right?
Mechanically twisting it.
But remember that all molecules are actually waves.
They're not solid.
A molecule is, even a glass really is not little balls of solid stuff.
It's waves interacting to appear solid to us.
Right.
Because our waves, our fists, It's not the same wave as that glass.
We can't go through it.
So that's what makes it solid.
That's what we call solids.
But liquid is a free-flowing molecular state.
It can change anything.
And any energy that I force upon that water can change that water.
Now the question is, how long will that water stay changed or would go back?
And there's something called Hysteresis that, in physics, it wants to go back to the original state again.
And one of the, and I wasn't here for it, but one of the tests that Russ and Roy did, speaking about that, was had a monk in Russia pray over water that he had in his lab.
They had a satellite link, so they knew the moment the monks started praying, They did Raman spectra to look at the energy of the water.
And the millisecond that muck started praying in Russia, the water in the lab in Russell Roy's lab started changing.
And they could measure it.
And they knew exactly what was happening.
The millisecond that that muck stopped praying, the water went back to what it was before.
So there wasn't enough energy And the distance was great enough so that relates to how much energy there is.
There wasn't enough energy to permanently twist that.
And I'll go back to the pipe cleaner again.
With the pipe cleaner, if I put a little bit of energy, it won't twist.
But if I give it enough, it'll twist and stay there.
And then if I want to return it, I have to put that much energy back into it again.
Well, what is energy?
Energy is thought.
Our waves that come out of our brains.
It's sunlight.
It's ultraviolet.
It's magnetism.
And it's thoughts.
We can generate thoughts that create energy waves.
Those energy waves can be a pigeon upon everything.
We're talking about water now.
They've done the same thing with plants.
They've shown plants will grow better or worse Depending upon whether you cuss at your plants or talk nice to them.
There's a study and it was published and the AMA did, the American Medical Association, that when patients were prayed for in the hospital by a group of people, they recovered 30 to 40 percent faster and better than patients that were not prayed for.
It's a If people can look it up, we'll look it up.
Oh, yeah.
No, there's no doubt about it.
I mean, as far as I'm concerned, there's no doubt about it.
But, you know, what does that say about the possibility of us basically on Earth changing the nature of our water by praying over it?
I believe we can do it.
I have no question whatsoever that we can do it.
Or it's possible for us to do it.
Jesus changed wine or water into wine, right?
He walked on water.
I have no doubts that if the consequences were right, if the conditions were right, and we were pure enough, we had it good enough, we could change the water.
Whether that's a practicality, I'm not sure about.
Because we're so split today.
We're so derisive.
We're so broken up that for every good thought, there's probably a bad thought.
Even internally in ourselves.
You know, being able to do it and actually doing it, I think are probably two different things.
Yes, I think man...
Can change water and maybe the water we're getting now is what we deserve because what we've done.
But yeah, I believe, you know, every religion, every single religion on the face of this earth talks about changing water and holding water.
They use it for baptisms, for cleaning, for whatever purposes.
Every single religion does.
So every person of any individual religion whatsoever has acknowledged that water can be changed.
And it can be a good thing or it can be a bad thing.
Right.
I hear you.
All right.
Well, it's been fascinating talking to you, as always.
And I just want to make sure we covered the topics that you wanted to cover.
Is there anything that we haven't covered before I let you go?
I don't think so.
Excuse me.
I really wanted to get the information out about the plastics that are in your water now.
Right.
Everywhere.
We ourselves are...
Raising some money to help our capability to produce more of this.
If people want more information, they can go to www.startengine.com.
They can look up all the information that I talked about on this show and they can look up any investment opportunities they might want to look at.
Okay.
If they just even go to that page or to our water page, DominionWater.com, they will see a lot of the science that we talked about today on the show.
All right.
Very good.
Well, thank you so much for coming on the show, as always.
And anyone who wants to can obviously...
Reach you and try your water.
I guess some people do ask about the price, and I don't know if the price is competitive at this point, or is it still quite difficult to be competitive under the circumstances?
Well, we are trying to...
Our water is competitive to top-end water Avion or whatever, Pellegrino or whatever, that you might buy in a grocery store.
Except the cost of shipping it, it's more expensive.
But one of our goals is to start these water factories in every one of the major locations, the major cities in the United States, so that we will be at the same cost of a normal bottle of water in your grocery store.
And so we're working on that.
We're still implementing that plan.
It's a long-term projection that we'll be doing it.
But in every major city, in every state in the United States, we will have a water factory.
We will use the local water.
We will clean it.
We won't waste any water.
And you'll be able to get it at a very good price.
Okay, so really lots of blessings for you.
And then people can also, as you say, if they want to invest, if there are investors that hear this, then they can actually do so.
Is that correct?
That's correct.
Very good.
All right.
Well, thank you, Steve Settelmeyer.
And thank you so much for joining us and for your wonderful knowledge.
You know, you're quite a fountain of wisdom there.
So I do appreciate it.
Thank you, Carrie, so much for being on your show.
I love talking to you.
I love being on your show.
Thank you.
I appreciate that.
Alright, so you take care.
I'm going to let you go and we'll close this down here.
So at the moment, thank you everyone for watching.
I'm going to try to disconnect this, figure out how to do this.
It's not so easy.
Okay, there it is.
So I just want to say that if you are interested in having me interview anyone in particular, you're It's free to write to me and suggest that person.
We have a couple things that have been rescheduled lately so there are not as many interviews this week and next week we are trying to get some people lined up and so those shows will be announced as we go.
If you're not already subscribing to my Twitter And to my Facebook page and all those links are available on my website as well as, let's see, what else?
My newsletter is a good place to stay in touch with us and to be up to date on everything that's going on.
So thanks for watching and have a great day.
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