Kevin Nolan wrote: >>From what I have read, as soon as ozone hits water it converts to H2O2 - which I can purchase as 50% technical grade for $1 AU per litre. How many litres does that work out to as the equivalent cost of an ozone generator (which needs bottled oxygen, I understand)?<<
Not so Kevin. O3 will dissolve in water to eventually degrade to H2O2. O3 will remain dissolved in room temp water for a few minutes and in ice cold water for about 20 minutes. Ozone can be generated using dry air quite acceptably, without the generation of the nitric acid contaminant that would accompany 'wet' air. >>As for so-called "Far infrared fibres" - the concept defies basic thermodynamics. All materials emit and absorb precisely the same spectrum of heat radiation when at the same temperature. If your FIR underclothing seems better, either it is simply better at insulating, or you are experiencing the power of suggestion. Ditto for the FIR bags - it will be the "ozonated" CS doing all the work.<< Again this is not so, as far as I know. Some elements or compounds (silicon dioxide, aluminium oxide) will accept energy of some wavelength and then radiate it at another, in the far infrared in this case. All that is required is the conservation of energy. While the same energy is output (more or less) FIR radiation is much more efficient at heating our bodies as it is able to penetrate deeply (unlike radiation of shorter wavelength) and is similar to the resonant frequency of water and tissue and thus the energy is absorbed more efficiently. Regards Ivan. -- The silver-list is a moderated forum for discussion of colloidal silver. To join or quit silver-list or silver-digest send an e-mail message to: [email protected] -or- [email protected] with the word subscribe or unsubscribe in the SUBJECT line. To post, address your message to: [email protected] Silver-list archive: http://escribe.com/health/thesilverlist/index.html List maintainer: Mike Devour <[email protected]>
