Mr. G cell Project Page 3

6/27/08. This is 6 G cell, 1" apart, wired 3 each in series,
resulting in approx. 4 volts each. This is for an 01 Subaru Outback.
Works well upon installation. It is mounted on top of the front bumper.
1 level tea. lye per gallon water.

Here is a simple bubbler. As the top may leak under vacuum, I use electrical tape where the lid meets the jar.
Date- 6/26/08. I now use the original metal lid. Goop it on and seal all edges, Goop 1/8" tube going into 1/4" barbed 90 also. Paint it when dry. You want it vacuum tight.

Lately I have been joining two cells together this way. Same results as using them separately.
4" pvc, abs, or drain pipe make good containers. You could put quite a few in a section of pipe.
I am assembling a cell with twelve coils in it.
Date- 6/26/08. Only use PVC or ABS. Drain pipe is to thin.

Comparison of Mr G cell (in foreground) with a larger cell in water, with more windings. Filtered water with 1/16 tea. lye. Cell running 4 1/4- 4 1/2 amps. Bubbles mostly on surface. In this photo you can see the black tube on the bottom which supports the larger coil.

Now, the bigger cell is in the foreground. The Mr. G cell in the water is only running at barely 1 amp. In spite of this, the water has a much denser accumulation of gas bubbles.
I think this obviously proves that cell design is immensely more important than amps being consumed or surface area. Common sense thinking might suggest that the larger cell, having more surface area, would be superior. If you are saying "My cell is using 20 amps, it must be making lots of hydrogen", or "My cell has massive surface area"- you can now visually see that may not quite be true.
If you are building a cell, and trying to get as much surface area as possible, you may be shooting yourself in the foot. Less may be better. In this case, over 4 times better.
The black 1/4" tube on the bottom is not visible.
Pictures were taken after running about 10 minutes.