I agree, any pump that is straigh battery connected is a potential FIREBALL in an accident. So that is not what I had in mind. At this point, I am still researching, becuase I have to make sure that the heating process is enough to vaporize the fuel completely without reaching the "Autoignition" temperature. Perhaps a good alternative to that line of thinking is use only a couple of windings around the exhaust then up to a Vapor chamber like AlaskaStar's Ammo Can.... in an excited (heated) state, the gasoline blends would tend to vaporize more evenly. (I think SeaMonkey indicated that the current gasoline is a various blend based on geography and season ((TEMP))). So by raising the temps to say 300+ degrees all of the components should vaproize nicely in the turbulent vapor chamber.
Also... since I have not as yet identified the H2 Filter yet, I have been thinking about a design for the "lyser" that would allow you to manually seperate the H and O... in essence, it is a standard lyzer design with plates, BUTwith a divider and a special feature on each plate. I will have to hand draw it and scan it I guess to show a picture of the idea since I can not figure how to do it in a software package.
I will try to describe it here in text. Imagine a standard LOW VOLTAGE CELL (12-15 inches long with plates that are 2 inches wide and 12 inches long. Now in many designs, you can stack the plates together and drill your holes through all plates at once. Then simpley take the middle hole where you would use your nylon bolt and swing them around every other one so that you can use your bus bolt on top and one on the bottom. This is essentially the design that Chris has posted in the "Electrolyser Basics" section of the site. Then you see his design evolved into both bus bolts at the bottom of the plate array... and you can see how he did that. Put all plates together, drill two holes for nylon alignment bolts, and then notch out the corner and flip other other plate over, so that you have a staggered bus path on the bottom right and bottom left. Again, this is in the Electrolyser Basics section.... NOW in all of these cases, you have nice uniform plates with spacing of 1/16th of an inch and in some cases 1-2mm.... IF you increase the space between plates, you make the Lyzer run hotter. But if you have the space, and I would say from the initial design that you posted here, space is not the issue and neither is temp... Then lets make a single array, with spacing about 5/16ths of an inch between the plates, using the basic plate design from the second evolution of plate design that Chris posted as described above. BUT after cutting all plates the same and before you flip every other one over, take either the upper right or left corner and fold it over so that on the high side either left of right, you lose about 1/8th of an inch off of the original 12 inch height... and on the low side, you lose about 1 inch from the original height. DO NOT CREASE the metal, you want it bent such that it makes a semi circle (life a wave at the beach). Then cut the excess off... making a channel for the rising bubbles to follow up and off the plate. The size of this channel is important, and should not exceed open space of more than 1/8th or 3/16ths inches in outside diameter, or you will kill your spacing and make steam rather than Hydroxy....
Once you have made your channel on all plates, still facing the same way, flip every other one over as Chris did. Now, what you have is an array that has bus connections at the bottom left and right... with Nylon alignment bolt holes spaced out in the center, and alternating channels flowing left and right... so that the array can not be placed up against a divider at the center where the alternating channels make a V. Some of the plates would have to be doubled up so plate thickness should be considered (i.e. both sides of the plate produce gas, so plates with alternating channels have to be back to back).
If your interested, I will draw something up and scan and post.
FlashBang!Statistics: Posted by FlashBang — Mon Aug 25, 2008 9:32 am
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