I have since turned the flow down. 5 LPM was max I ran. I had too much trouble. The truck idled at 25 MPH and 1000 RPM's. I am now only running 2 LPM until Painless finshes his new PWM that will adjust based on fuel injector pulse width.
Larry
I have since turned the flow down. 5 LPM was max I ran. I had too much trouble. The truck idled at 25 MPH and 1000 RPM's. I am now only running 2 LPM until Painless finshes his new PWM that will adjust based on fuel injector pulse width.
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.
H2OPWR,
A little of topic.. But, if i remember right.. One of the "proof" of concepts that HHO is contributing to a vehicles performance is to at idle: turn HHO on, adjust the idle/carb to very low rate, and the vehicle will supposedly idle far lower than it would normally with fuel only..
Have you or anyone confirmed this?
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.
Larry, Thanks for your response. I'd be interested to see results from this test (if anyone has tried it):
Run HHO at idle, tune to as lowest RPMs possible.... Then cut out HHO and see if engine dies, or if it will idle even lower w/o HHO.
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.
Do yall think that in the long run, all of us will be needing something that changes the amount of HHO being produced per RPM level? I mean, the hho needed at 800 RPM is different than the amount of HHO needed at 2400 RPM. OR, are we simply just dialing back the gas as much as we can, and supplementing that with whatever amount that our generator can crank out? Both methods would seem to make sense. On the one hand, you would think that you need more HHO for more RPM's, just like gasoline. On the other hand, HHO is far more flamable and if we already dialed back on the gas, the preset amount of HHO should be enough, right...? I mean we aren't building a hot rod here. We are trying to turn our gas guzzlers into eco-commuters. Well, compared to what they were, anyway.
Yea quite a bit has change so much better products to work with now that everyone is trying to go green
Interesting stuff! I've also been absent for about the last year, and was wondering the same thing: what's changed?
By what virtue do you get your massive LPM output? Is it primarily cell design, electrolyte mixture, electronic controls, or some combonation of them?
I had built a nice tubular cell, but life happened, and could not continue development. At this point, I'm not sure my cell is worth pursuing if other cell configurations have been proven to be more efficient.
Is there now a universally accepted cell design, or are people still playing with various plate configurations / electrolyte mixture / current, etc.?
Thanks for your posts, and getting us back up-to-speed.