So far I have ignored this person's threads and posts because I am a busy man and do not have time to mess with stupidity and dishonesty.
This one finally ****ed me off enough to make a post. It really ****es me off to see some A$$HAT misdirect some new person who does not have enough experience to know the difference. A thread like this has the potential to cause many to waste their hard earned money chasing a pipe dream. Richard, You and Smack need to get together and tell each other lies. Leave us out of it.
I finally could not stop myself from responding. This response is for any new person to this forum that is looking for the goose that lays golden eggs. This crap is not it.
Absolutely nothing in this cell design will help anyone with any additional production at all and most of it will hurt effeciency.
First this cell would be extremely lucky to get 1.5 LPM HHO at 12 volts 25 amps. No where near 4 LPM. Furthermore 4 LPM at 300 watts would get anyone responsible for the build a Nobel Peace Prize. Done Deal. That kind of effeciency would mean free energy for anyone copying the design. A larger design of a cell with that kind of effeciency could power your home easily off just water.
Second, COOLING???, That cooling set up will do little if anything at all to cool a cell down. Stainless Steel is a poor thermal conductor. Furthermore WHY would anyone make a device that runs hotter than they want it to. Making a device that runs cool is brain dead easy. Just keep the voltage per plate gap between 2 and 2.3 volts and keep the current down to about 1 watt per 4 sq inches of plate surface. The cell will never get over 140 degrees. NEVER EVER EVER. My favorite question is, why would you fight the heat anyway? The hotter your cell runs the more conductive it becomes. Hence runaway amp draw. The only reason the cell keeps increasing amp draw is because it is becoming less resistant hence more effecient. Just build a cell that can handle the temperature and let it do its thing. Scrubbing the water out of the gas is easy. I run my cell over 200 degrees all the time and produce dry cool (70 degree F) gas.
Third, What in the world would anyone spend time or money to get a mirror finish on a plate. Just some easy simple research will tell anyone that just the opposite is desired for optimum performance. The big boys (Large companies and professional research facilities) are spending millions to make the plate surface as porous as possible. More surface area will always equal more production and higher effeciency. A little research should convince anyone of that.
Fourth, Anyone that talks about cryo treating and mirror polishing the bolts, nuts, and wire connections needs to rethink life. The bolts simply hold the cell together. Someone please tell me just how changing anything with the bolt surface will do anything except make them shine. WHAT, A 5% increase in effeciency by Cryo treating a wire connector. Richard, Super conductors do run very cold. They are kept cold all the time to reduce resistance! Simply getting something cold then letting it warm back up DOES NOTHING!!!!! You must KEEP it cold to reduce resistance. That does not apply to water. It loses resistance as it warms up rapidly. Sure the plates gain some resistance but the water loses resistance MUCH faster than the metal gains it as it warms up. YOUR CELL WILL BE MORE EFFECIENT WHEN IT IS HOT!
Now that I have broken my promise to myself to not respond to any of Richards posts I think I will just go beat my head against some cold Alaska Ice. Maybe Cryo Treating my head then Mirror polishing it will make my brain more effecient.
Larry
2008 Nissan Frontier 4X4 Nismo. 12 MPG baseline with my normal commute and heavy stop and go daily driving. Generator installed and working on 3/29/2009
Up to 14.5 MPG with no enhancers. Still testing the effects of lots of HHO and no electronic enhancers.