Yes, check Frank's site, it is the Silver Lightning Brand. His site shows about 4.5 ppm, but I have decreased the flow rate to bring it up to the nominal 5 ppm. Size distribution should not be effected significantly with only a 10% change in flow rate.
Marshall Arnold Beland wrote: > Marshall > > Have you had your stuff checked for particle size distribution? > > Arnold > ----- Original Message ----- > From: "Marshall Dudley" <[email protected]> > To: <[email protected]> > Sent: Thursday, April 11, 2002 12:37 PM > Subject: Re: CS>HVAC vs LVDC CS making > > > It would be both, since they swap 120 times a second. > > > > Marshall > > > > Arnold Beland wrote: > > > > > Marshall, > > > > > > Which electrode are you limiting the area of, anode or cathode? I have > been > > > making the cathode small and hard to reach, to gain control of > conductivity, > > > in the assumption that the cathode would be where the ions would clump > > > together, making larger particles. > > > > > > Arnold > > > ----- Original Message ----- > > > From: "Marshall Dudley" <[email protected]> > > > To: <[email protected]> > > > Sent: Thursday, April 11, 2002 12:05 PM > > > Subject: Re: CS>HVAC vs LVDC CS making > > > > > > > The most widely used method uses Neon Sign Transformers, 12 or 15 KV, > and > > > places > > > > the silver electrodes just above the water's surface, so that the > voltage > > > pulls > > > > the water up and around the elecrode. This results in a crude voltage > > > regulator, > > > > since as the voltage decreases, less water will get pulled up around > the > > > > electrode, increasing the resistance, and vice versa. This regulation > is > > > > necessary since the bulk conductivity of the water/CS starts off very > > > high, and > > > > drops by several orders of magnitude as ions are generated and diffuse > > > into the > > > > water. If you just submerge the electodes, then there will be a wide > > > range of > > > > current from start to stop, generating a poor quality product. > > > > > > > > The method I use, which I have applied for a patent on, submerges the > > > electrodes > > > > inside of pyrex or quartz tubes. Only the tip of the electrode is > exposed > > > > outside the tube under water, and is adjusted to be about .1" long. > Then > > > water > > > > is cooled to just above freezing and pumped through the electrolysis > cell > > > at a > > > > constant rate (about 3 gallons per hour per 100 mA). The amount of > > > electode > > > > exposed is adjusted real time to maintain a voltage of between 9 and > 11 KV > > > at all > > > > times. The CS leaves the chamber at about 105 F. > > > > > > > > Marshall > > > > > > > > > > > > > > > > Joseph Fritz wrote: > > > > > > > > > I have an idea although I think it is to technical for a faq I've > heard > > > > > people talking about different ways of making HVAC CS but how is > this > > > > > actually done? It would be nice to have a description of the various > > > ways > > > > > of making HVAC CS schematics would be nice also but I've heard of > > > several > > > > > methods of HVAC CS production but no description of what is actually > > > involved > > > > > > > > > > -- > > > > > 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]> > > > > > > > > > >
