I've known about Chemalloy for a few years, and wondered what effect electricity has on its ability to split water. In one of the patents, I stumbled on this little video, almost hidden, showing Stanley Meyer using alloy (Chemalloy) electrodes, along with high frequency, high voltage (but low amperage) electricity, producing hydroxy at an incredible rate, with an efficiency (claimed) of 300%, producing 3x the hydroxy than should be possible from the input. I'm looking to get access, or to build, a furnace to produce some sample rods of chemalloy for a project, similar to Meyer's cell in the video, albeit smaller, and removing the lead from the "ingredient" list, since it's for soldering/welding. I won't have the needed machinery to roll a Chemalloy ingot into Chemalloy plates (although I wish I did), but I'll look around for anyone that can do this for me. I'll have to stick to cast rods, I guess. Still, it makes me wonder what kind of an effect the plates (properly spaced) would have on production.
The power source (as described in the video) is standard 120VAC (wall outles), run through a transformer, and introduced into the cell as about 0.5A, 20,000Hz electricity. I didn't hear a voltage figure, but the speakers were turned down.
I thought I'd post the video, and see what you guys thought of it, and the Chemalloy electrode idea. The top link is the patent, and the bottom the video, a direct link.
http://0049606.netsolhost.com/experiments/chemalloy.htm
http://0049606.netsolhost.com/video/meyer1.wmv