Welcome, Guest
Username: Password: Remember me
### Research Section Disclaimer

None of the products, protocols or methods here have been approved by Jim Humble. This is the research forum and was set up for those wanting to discuss and experiment with MMS, and new complimentary technologies. Any experimentation that you personally do is at your own risk. Before anything is submitted for approval it must be first approved by Jim Humble in writing and posted under his account. The main source for approved material, protocols etc, is in Jim Humble's latest book at www.jhbooks.org Each person using this Forum is considered to be completely responsible for themselves and their own personal health. Any experimentation that you personally do is at your own risk.

TOPIC:

Re: NEW! forced air method--CDS Chlorine dioxide solution (MMS) 06 Dec 2011 19:06 #8915

  • polo
  • polo's Avatar
  • Offline
  • New Member
  • New Member
  • Posts: 12
  • Thank you received: 21
I run across a .pdf pamphlet that describes how the chemical industry recommends making a CD solution at

www.docstoc.com/docs/38958828/Laboratory-Preparations-Of-Chlorine-Dioxide-Solutions

It describes an interesting setup not too unlike what is being done here.





What I find interesting is that there is a "gas scrubbing tower" in between the reaction flask and the CDS bottle in its ice bath. Supposedly in this scrubbing tower is simply a sodium chlorite solution. Any one have an idea what this does?

doug
Attachments:
The following user(s) said Thank You: Alan_SP

Please Log in or Create an account to join the conversation.

Last edit: by polo.

Re: NEW! forced air method--CDS Chlorine dioxide solution (MMS) 06 Dec 2011 20:20 #8918

  • Alanti
  • Alanti's Avatar
  • Offline
  • Senior Member
  • Senior Member
  • Posts: 57
  • Thank you received: 8
Hello Polo.
The scrubbing tower works as a filter.
The air flow may transport unwanted liquid particles that are kept in the scrubbing tower in such a way that the final solution is not polluted.
Alanti

Please Log in or Create an account to join the conversation.

Re: NEW! forced air method--CDS Chlorine dioxide solution (MMS) 06 Dec 2011 20:29 #8919

  • polo
  • polo's Avatar
  • Offline
  • New Member
  • New Member
  • Posts: 12
  • Thank you received: 21
Okkkkkk, so tell me why we shouldn't be some what worried about it in our own more primitive setup that doesnt have a scrubbing tower?

Also, can you be more specific, exactly what are these "unwanted liquid particles" they are trying to filter out of the same type of acidified Sodium Chlorite solution that we use and how does simply another batch of the same sodium chlorite solution do that?

thanks,

doug

Please Log in or Create an account to join the conversation.

Last edit: by polo.

Re: NEW! forced air method--CDS Chlorine dioxide solution (MMS) 06 Dec 2011 20:36 #8920

  • Alanti
  • Alanti's Avatar
  • Offline
  • Senior Member
  • Senior Member
  • Posts: 57
  • Thank you received: 8
Doug,


The unwanted particles come from the liquid in the reaction chamber.
Without airflow such particles are really minimal.
In any case if the ClO2 solution is not intended for IV infusions, there is nothing to worry about.
Regards.
Alanti

Please Log in or Create an account to join the conversation.

Re: NEW! forced air method--CDS Chlorine dioxide solution (MMS) 06 Dec 2011 21:14 #8923

  • polo
  • polo's Avatar
  • Offline
  • New Member
  • New Member
  • Posts: 12
  • Thank you received: 21
I just run across this and is this the answer?

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


So would the scrub tower remove this Chlorite by-product?

doug
The following user(s) said Thank You: Michael Harrah

Please Log in or Create an account to join the conversation.