This is a new formulation for MMS (28% sodium chorlite) which may be superior in some cases to the original Jim Humble's MMS formula. View the actual process at:
http://youtu.be/-t2V7NOsnJMTo summarize this new process:
1) Mix 50cc of 28% sodium chlorite and 50cc of 50% citric acid in a glass (preferred over plastic) bottle which turns into a standard MMS solution (dark brown).
2) run a plastic tube from the MMS bottle over and into the bottom of 500 ml of an ice cold distilled water solution though the video suggests saline.
3) place hot (not boiling) water in a bath container and then place the MMS solution bottle in that hot bath to promote rapid generation of Chorline Dioxide gas.
4) let it generate for approx 30 minutes or until the gas stops bubbling through the tube into the cold (11* C or colder) distilled water solution. Both solutions will reach a similar light yellow color when it is about finished.
1cc of CDS = 3 drops of MMS
This is a way to formulate a weaker solution of MMS without having an acid in solution.
It is tasteless and much easier to tolerate than MMS.
Store in dark and refrigeration.
Jim Humbler writes:
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CDS can be made using distilled water, just plain drinking water, or saline solution purchased as an Intravenous solution. I PREFER DISTILLED WATER. If you use ice water with ice on the outside of the CDS container that you are making the temperature of the CDS will be about 40 degree F. At that temperature once that solution (CDS) is saturated then 1 CC or 1 ml will equal a 3 drop dose when added to 4 ounces (1/2 glass) of water.
As far as intravenous use is concerned only one test has been made so far and that was successful, but because only one test so far you must realize that you are on your own as far as intravenous is concerned. Muscle injection has been tried a few times only. It seems to be painful for only a minute or two and then the pain seems to reduce. We did 1 CC inter muscle which equals a 3 drop dose. But we have not finished the research.
To make a 28% MMS sodium chlorite solution from commonly sold 80% Sodium Chlorite Technical Grade powder, do the following. First, let me correct a common misconception here about the supposedly 28% strength of MMS. In reality, it is really 22.4% Sodium Chlorite. Not that it really makes a lot of difference in the general scheme of therapeutics. This discrepancy occurs because MMS is made from an 80% technical grade of Sodium Chlorite and Jim Humble really did not take this into consideration.
Ingredients mixed for a final 28% MMS (22.4%) Solution:
Mix 28 grams of 80% Sodium Chlorite into enough distilled water to get final volume of 100 ml.
Mix 70 grams of 80% sodium chlorite into enough distilled water to get a final volume of 250 ml.
Mix 140 grams of 80% powder into enough distilled water for a final volume of 500 ml.
Mix 280 grams of 80% powder into enough distilled water for a final volume of 1 liter (1000 ml).
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To make 50 cc or ml of 28% solution:
approx 14 grams of 80% powder in 44 ml of distilled water
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To make a percentage solution, one would add 28 grams of solute (sodium chlorite) to make 100 ml of solution. This will give a 28% solution. Note, one must first weight out the solute and then add enough water to make the target volume as the solute will itself take up some volume on its own.
The formula for a percentage solution is
Drug weight (X) / finished solution = % strength / 100
Thus, to make100 ml of 28% of sodium chlorite, your formula would be:
X / 100 ml = 28% / 100
X = 100 x 28 / 100
X = 2800 / 100
X = 28 grams to make 100 ml of solution by adding only enough water to make 100 ml
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A setup which will produce a low concentration (<1000ppm) chemically pure chlorine dioxide solutions for use as instrument standard or for studies where the possibility of any chlorine contamination must be avoided.
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The reaction flask and gas scrubbing tower is filled with 500 ml of approx 2.5% sodium chlorite solution. Place 50 ml of 10% sulfuric acid solution into the reaction flask, 5-10 ml at one time). The reagent bottle in the ice bath is filled with 500-750 ml of deionized water.
Reaction in neutral or alkaline conditions will result in Chlorine Dioxide forming chlorite ion as by-product. Chlorite is the major inorganic by-product of the reaction of chlorine dioxide in water. Usually, the amount of chlorite formed will be 40-60% of the amount of chlorine dioxide which has reacted. For example, if 1.00 ppm of chlorine dioxide is added to water and 10 minutes later, 0.60 ppm remains as a residual, 0.40 ppm has therefore reacted. We can expect the chlorite to be 0.16 - 0.24 ppm
The scrubbing tower above is designed to remove free chlorine from the final CDS fluid. You possibly could only use MMS 1/4 strngth for the scrubber, and one only need senough volume to bubble through.
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This is a drawing of a CDS setup made by Steve from the MMS blog. It should produce CDS at around 3000ppm:
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My version of a CDS generator:
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I used 200 ml of 28% sodium Chlorite in the reaction flask with 60cc of 10% HCl acid in the syringe which I release 10cc at a time throughout the process. In the scrubber flask, I placed 400ml of 14% sodium chlorite, in the reagent flask, 2000 ml of distilled chilled water and finally in the exhaust scrubber flask, 300ml of a sodium thiosulfate solution. The air supply is hooked up to a small tank air compressor and I heat with a used lab hotplate/stirrer. In the reaction flask is inserted a common wired remote food type of thermometer in which I kept the temp at around 160*F.
My first batch of CDS (2 liters of CDS from 200ml of MMS and 60cc of HCL acid) seemed to test out at approx 1000ppm using 500ppm test strips. I diluted my CDS 1:10 for that reading determination.
Remember! Oral dosage levels should be no more than 25-50 ppm of CDS!
A new youtube video on how to make more simply and efficiently a 25ppm CDS in one liter bottle that can be drank all day:
http://www.youtube.com/watch?v=NpM4xZESkNETom's critique on Jim Humble's new method to make 25ppm CDS:
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Once again Jim Humble demonstrates that he doesn't understand the chemistry that he is dealing with. Also, he is confounding science with his ideas on basic mathematics...
The current MMS protocol calls for taking 3 drops an hour over a period of 8 hours. All of the rest of the world looks at solving the multiplication problem of 8 X 3 and comes up with an answer of 24. Jim Humble comes up with 25. Interesting...
OK, he did say that the last drop just "got away from me," so I will give him a little slack. At any rate, drops are very inaccurate and vary widely so he may have noticed a small drop and just wanted to make up for it with the extra drop. If he was interested in accuracy he would use a more exact measurement.
Jim Humble has done repeated testing and has determined in his mind that chlorine dioxide is the active ingredient in MMS. He has done further testing that has determined that a 3 drop dose of MMS is the same as 25 PPM CDS.
Yet when he demonstrates this, he uses enough MMS for 1 liter and produces 2 or more liters of CDS.
If the two were equal, why is he able to produce more CDS with the same amount of chemicals...?
He casually mentions that when you mix MMS you loose some of the chlorine dioxide gas to the air in the 20 seconds of activation, but did you notice the puffing at the top of the bottle? That is chlorine dioxide gas that wasn't dissolved into the water.
Since there are losses both ways, we have to look to science for an explanation.
If you understand the difference between chlorous acid and chlorine dioxide the answer becomes very clear.
When starting with sodium chlorite the amount of chlorine dioxide that can be produced is related to the concentration of chlorite in the sodium chlorite. Keeping in mind the Jim Humble has a goal of 25 PPM let's look at what is available in the various concentrations of sodium chlorite.
A 1% concentration has 10000 PPM available chlorine dioxide. A 2% concentration has 20000 PPM available chlorine dioxide. The 3.5% stabilized oxygen that Jim Humble started out with has 35000 PPM available chlorine dioxide. 5% has 50000 PPM available chlorine dioxide. MMS is 22.4% and has 224000 PPM available chlorine dioxide. Technical grade sodium chlorite powder that is 80% pure has 800000 PPM available chlorine dioxide.
To get the chlorine dioxide out of sodium chlorite activation is used. The amount of chlorine dioxide produced as free chlorine dioxide when using acid activation is related to how low the pH of the sodium chlorite is lowered to. Sodium chlorite in solution is alkaline. If you lower the pH a little, a small amount of the available chlorine dioxide is released as free chlorine dioxide. If you lower the pH a lot, a large amount of the available chlorine dioxide is released as free chlorine dioxide. If you lower the pH far enough all of the available chlorine dioxide is released as free chlorine dioxide. There are some chemical limitation to this, but that is the basic principle.
Unfortunately Jim Humble doesn't understand these basic principles, and because of that lack of understanding he can't pass these basics of chemistry on to his followers. They are simply left to repeat the misinformation he provides them with.
Jim Humble claims that this new method of producing CDS is more efficient. He speculates that he can get 3 days worth of CDS from 1 days worth of MMS. If you look at the science behind this he is getting 3 liters of 25 PPM from a total available chlorine dioxide of about 316000 PPM. That is not impressive efficiency.
That brings us to the difference between chlorous acid and chlorine dioxide dissolved in water. With chlorine dioxide dissolved in water all you have is free chlorine dioxide. With chlorous acid you have available chlorine dioxide and free chlorine dioxide in the solution. In Jim Humbles mind everything is related to free chlorine dioxide. He doesn't understand the difference between available and free chlorine dioxide and how that works in chemistry.
Let's look at his demonstration. We will view this from two different perspectives.
First let's look at what he did. His goal was to produce 1 - 3 liters of water with 25 PPM free chlorine dioxide in it. Let's call it 3 liters.
He mixed up 1 days worth of MMS (which is chlorous acid) and scrubbed the free chlorine dioxide produced into 3 liters of water at a concentration of 25 PPM in each.
If he had followed proper activation procedures, that same amount of chemicals used would produce around 12 liters of 25 PPM CDS.
The second perspective is to look at how much MMS is needed to produce 1 liter of 25 PPM CDS.
This works out to about 1.9 drops.
Now that people have test strips here is a way to demonstrate the difference between chlorous acid and chlorine dioxide dissolved in water.
You will need two glasses. In one mix up your normal 3 drop dose of MMS and add water to make a total of 125 ml. In the other mix up a similar amount of 25 PPM CDS. Put 0.2 grams of Fruit Fresh (ascorbic acid) into each glass and mix. Now measure the amount of free chlorine dioxide in each glass.
The next step involves covering the glasses and letting them sit for 4 hours. After that measure the amount of free chlorine dioxide in each.
The glass that had the CDS in it will show that the free chlorine dioxide has been reduced to zero or near zero, and after 4 hours is still at zero. The glass that had the chlorous acid in it will show zero or near zero free chlorine dioxide after the addition of the Fruit Fresh, but after 4 hours the free chlorine dioxide will have increased to higher than the original 25 PPM.
The science behind this is straight forward. A 3 drop dose of MMS in 125 ml of water has over 300 PPM available chlorine dioxide. Only a small amount of that is released as free chlorine dioxide. The ascorbic acid uses up and reacts with the free chlorine dioxide and it is removed from the solution. However, the chlorous acid reaction continues and more free chlorine dioxide is produced. With CDS there is no available chlorine dioxide. When the ascorbic acid is added, the chlorine dioxide is totally used up and there is nothing to produce more chlorine dioxide.
This is how you take a days worth of MMS and produce multiple days worth of CDS. It is also why CDS is not effective in many cases. Chlorous acid is different than chlorine dioxide dissolved in water.
It is my hope that someday Jim Humble will "discover" chlorous acid and chlorite and will pass that information on...
Tom