Jim Humble is a pioneer in the preparation & use of MMS – Magic Mineral Solution. In his method a solution of sodium chlorite is made in a glass to which is added an activator – an acid like hydrochloric acid. The products are: chlorine dioxide, sodium chloride, and water. This solution is ingested.
Dr. Andeas Kalcker improved upon this method in which 100 % pure chlorine dioxide solution is made & which can conveniently be stored.
The chemical reaction for citric acid is:
5NaClO2+4C6H8O7 —-> 5ClO2+5NaC6H5O7+4H2O
The chlorine dioxide dissolves in water, but does not react with it.
Chlorine Dioxide Solution [CDS] Andreas Kalcker CDS preparation Video:
https://www.youtube.com/watch?v=u0mRQ0_v0Zk
Caution: If you make CDS, ensure that you follow the appropriate protocols.
Equipment:
reaction vessel – Agee or Fido jar – 750 ml
shot glass – e.g. 100 ml – heavy enough so that it wont unbalance
storage bottles – e.g. 5×100 ml
pipette – 5 ml – or conical measuring “cup”
digital scale – accurate to 0.1 g
Ingredients:
sodium chlorite crystals – see below
citric acid crystals – readily available
water – distilled 0r bottled spring water – I use rain water
N.B.: Any stage where the gas may be in the air, carry it out in a well ventilated area e.g. below a range hood extractor or outside.
Sodium Chlorite Technical Grade:
Sodium chlorite powder is 80% sodium chlorite and 19% is table salt (sodium chloride) and less than 1% of several other sodium chemicals that are considered nontoxic. The salt stabilises the sodium chlorite, giving it a shelf life of 30+ years.
This can be purchased from Tuluce Chemicals in Turkey:
https://tulucechemicals.com/
Approximate Cost:
1 pound – NZ$98 Includes shipping; there may be GST.
“Detox Solutions in Australia”:
https://www.mmsdetox.com.au/
Approximate Cost:
1 pound – AU$70.15 Includes shipping; there may be GST.
Procedure:
1) Make a 31.25 % sodium chlorite solution. Since you will be carrying out the reaction twice, then you will need 10 ml.
Thus, add 3.125 (3.1) g sodium chlorite crystals to 10 ml water.
2) Make a 50 % solution of citric acid. You will need 10 ml.
Thus, add 5 g citric acid crystals to 10 ml water.
3) Put 500 ml of water in the reaction jar.
4) Use the pipette to put 5 ml of sodium chlorite solution in the shot glass.
5) Place the shot glass in the reaction jar.
6) Use the rinsed pipette to put 5 ml of citric acid solution in the shot glass & quickly close the lid.
7) Place the reaction jar in a cupboard for 12 to 24 hours.
8) Tip the contents of the shot glass into a storage bottle. This can be used as a disinfectant.
9) The reaction jar now has 500 ml 1,500 ppm CDS. Repeat steps 5) to 8).
10) You now have 500 ml of 3,000 ppm chlorine dioxide solution (CDS). Store it in a fridge.
N.B. Ensure that these substances are kept in a safe place away from children. Label the storage bottles.
Ideally when making up chemical solutions, you add the solid to water & then make up to, say, 10 ml by adding more water. The above is an easier method which is accurate enough; as a trained ‘scientist’ I would be more precise!
NOTE: Dr. Kalcker uses stock bottles. I prefer to make smaller amounts. 500 ml will make 50 1 litre bottles of 1 % CDS.
Every time that you take 10 ml from the concentrated or diluted bottles, chlorine dioxide gas will escape from the CDS solution into the space above. So as you use more, the CDS solution will become weaker.
Hence my preference is to use small bottles, such as 100 ml. It is a matter of how frequently you drink or use the CDS solution.