Hello everyone and welcome to the ZeroFossilFuel alternate energy web site. The time for change has come. Presented here at this web site shall be plans, prints, schematics, drawings, photos and videos to reconstruct and put to use alternate energy devices that I have personally built and tested. Everything you find here is original work based on my own independent research. I release it to the public domain with no strings attached. If you wish to help, please make a generous donation using the PayPal link to the left. CLICK HERE to catch me on YouTube too!
Regards, Z
URGENT PWM update.
A user has written me already to say his unit got to 145*F after only
30 minutes and R14 discolored. That's much too hot. Mine barely gets warm
to the touch. This tells me he has a large amount of inductance in the
power leads leading up to the PWM. One solution that helps greatly is
to send primary power to the cell first, then from the cell (+) to the
PWM using smaller gauge wire (i.e. approx. 20 gauge). If after making
this change you still experience unusual heating, your installation is
going to require a low ESR cap across the power input terminals
AT THE PWM, VERY CLOSE TO THE PWM. The parts list now shows optional C6,
a 12,000 uF low ESR cap that's only a couple of dollars from Mouser. Also,
you should be using 4 gauge wire to power the cell.
If your R14 became discolored that doesn't necessarily mean it's bad. Check the resistance with an ohm meter. Chances are it's still good and you can most likely leave it.
Z
Simple Math for the "experts"
Here's the simple math I use to stuff it in the face of "the experts" when they say we're attempting to violate the "Laws" of conservation of energy. Please feel free to use it to stuff it to them too.
1) The best I.C.E. is 18% efficient, 20% on a good day.
2) The process of brute force electrolysys today has been pushed to about 85% Faraday.
Note: Based on the caloric energy available from burning Hydrogen, by using Faraday's "Law" to translate from electrical energy it is estimated that 100% efficient hydrogen electrolysis is achieved by creating somewhere between 5.5-7.5 milliliters of gas per minute per watt of energy consumed. Members of our research group have run the numbers several ways which all seem to point to around 7.0 m/m/w or mmw for short. Many of our cells have operated as high as 6mmw or roughly 85% efficient
3) The product of electrolysis is HHO which has it's own energy value, up to 85% of what we put in.
If all we considered was the return of energy value when we inject the HHO as a suppliment to gasoline, then yes; Conservation of energy applies.
HOWEVER!
HHO as an additive does more than return 85% of the energy we put in to create it. It's properties enhance the slow burning gasoline, speeding up the rate of combustion, causing much more of the total combustion process to be translated into mechanical energy rather than being lost as waste heat out the tail pipe, raising the efficiency of the total system. Returning to the simple math...
4) Let's say we're able to translate just 10% more of the total system energy to mechanical energy. We have still not violated conservation of energy, only raised the total system efficiency to 28%. But that's an increase of 55%!!! Now deduct the energy loss of 15% to create the HHO that made this possible and you still end up with a total net gain of 40%!
This is not rocket science. It's simple math. And it works. The reality is some are getting even more, up to 35% mechanical efficiency, 94% gain, -15% to create the HHO, 79% total net gain. That's 54 MPG on a car that started out at 30. People are doing this. It is working. The move is on and there is no stopping it.