This entry contains a list of videos in order of event that you can review. I have not modified the videos so they are straight out of the camera. I don’t really have time to edit anything and really only recorded to help me review the rates of generation side by side.
Also, sorry about the length of some of these videos. I have opted for clarity over size so those of you with dial-up access might not want to try to view them unless you have a while to wait…
Test 1: This test was done with straight water to see what type of reaction I’d get.
Potassium Test: This test was done with water and potassium in order to get an idea of what could be created without the use of electricity. The main goal here was to see how long the Potassium Hydroxide lasts in the water.
Test 2: This test was done using plain table salt added to the water. There are those that state you can use salt water from the ocean to create the hydrogen and while this is very true, I think you will see from the video why it can’t be realistically done.
Test 3: This test was done with water and Potassium Hydroxide. No real measurements were done as far as the actual amounts of amperage and water used.
Test 4: This test was done with current flowing through 2 stainless steel bolts and a better charged battery. Earlier tests were done with a bad battery and the current didn’t stay consistant.
Test 5: This test consists of using aluminum wire coiled and placed into water containing Potassium Hydroxide. Different sizes and amounts of coils are added to see what difference they had with the overall reaction.
Test 6: This test shows the new container that I’ve built along with a test run using 4 electrodes of 5/16″ S.S. Threaded Rod. This test uses +-+- on the probes
Test 7: This test is the same as Test 6 except that I’ve switched the electrodes to being ++ –
Test 8: This test is the same as Test 6 Just to try to see which is generating the most bubbles.
Test 9: This test is done only using the 2 center posts instead of dividing the current between 4 posts.
Test 10: This test uses the two center electrodes but with S.S. springs around the bolts to see if the coil shapes of the springs increase our output or not.
Test 11: Same test as 10 but now we’re capturing gas with cap and letting gas leak into water container to see the gas bubbles.
Test 12: This test uses 2 center electrodes but this time we have wrapped 2 pieces of copper wire with fingers that overlap in order to get the electrodes even closer.
Test 13: This test is completely different and uses S.S. Electric switch plates as my electrodes. See pictures below for the design…
Test 14: This test shows the new device sitting in plain tap water. I then add 2.4ml of HKO to the water which is nothing compared to the other tests I’ve run. The plates definately conduct much better than any of my earlier tests which allows for less HKO than before. I still can’t believe how little I added and what the difference was.
Test 15: Detail of the actual device construction… This test is with the new plate design placed in a 4L bucket of water in order to visually see what is going on. There is a dark murky substance that forms on top of the water and we haven’t yet reached the point where we have our white powder substance forming on the plates. We still have a lot of bubbles sticking to the plates and cutting down on the amount of electricity able to split the water molecules.
Test 16: This test shows the 7 plate design working for the first time with my DC Timing circuit running off straight 12V battery. Timing circuit does produce more hydrogen but not going to blow you off your chair or anything…
Here is the video clip of assembling the latest unit.
Test 17: The first test with 3mm gap and 11 plates
Test 18: This test shows new design assembly using 2 assembly (non conducting) bolts to hold plates together, then tapping 5/16Rod for anode and cathode electrodes. Also shows assembly in action.
Test-019 - This test walks you through the new circuit boards and setup. Also lets you hear the circuits performing over a buzzer.
Test-020 - This test shows the new cell running straight DC without the timing circuit. Notice the way the bubbles seem to start from where the cathode runs through the plates and not from the very bottom.
Test-023 This video shows the new tubes that I’ve made using the hand railing for handicap persons purchased at Lowes.
Test 024: This clip shows the new pipe cell fully assembled just before hitting the water.
Test 025: The new pipe cell first trip in the drink.
Test 026: This clip shows the cell running one more time for the night after being cycled a few times
Test-027: This test shows the cell upright and upside down as well as shots from the bottom of the cell looking up through it as it runs.
Test-028: This is a side by side comparison between right side up and upside down to help see the difference.
Test 029: This video shows the nasty foam on top of the water.
Test 029.5: This video shows what things look like after the cell has stopped running. The foam goes away on its own and the water is an orange color. Entire cell coated with a slimmy substance.
Test 030: Video of new cell G02 in fresh tap water hooked to straight DC without Pulsing circuit.
Test 031: Cell G2 after running for 1 hour in clean tap water. Would you drink it?
Test 032: Cell G2 after running for 2 hours in tap water. Cleaning out after this test and starting over again to see if we get less foam on 3rd 2 hour run.
Test-033: This is a cell construction video to show the finished cell with its lid and connections.
Test-034: This video shows the cell connected normally with anode (inside) and cathode (outside ).
Test-035: This video shows the cathode connection bolt and how its creating hydrogen itself. Which is rather confusing to me as to how or why its doing this. It would appear that we should be generating off the outside of the tubes as well if its reacting to the bolt like it seems to be. But we don’t see this…
Test-036: Now we’ve reversed the anode and cathode connections to see if there is any difference as to which tube ends up being the largest. Can you tell?
Test-037: View from the top of the cell (bubbles) with the first being normal hookup with cathode being on teh outside tubes and the second half of the video with the outer tube being the anode. One thing to note however is the water color. You will see the water almost instantly start turning a darker yellow when I reverse these connections. I don’t know if the water reaches a point where it does this on its own, or if it has something to do with the connections. Will need to do further testing…
Test-038: Cycles back and forth between anode and cathode being the outer tubes.
Test-039: This video clip shows side by side comparisons of the anode and cathodes being switched from inside to outside. Also shows the cell from the top and side views during each test to show what is going on.
Test-041: Here are anode inside and outside Top View results after 10 minutes.
Test-042: Explosion Test for you junkies…
Test-040: This test shows our 5 plate unit running. While its output is less than the cell, you’ll notice the bubbles coming out are a lot faster. I am at this point thinking that the flat cell may very well out perform the pipe design in side by side comparisons but we’ll have to wait until I finish the 12 plate layout required to get us the same surface area of the pipes.
Test-043: This test shows what the cell does when it has less water over the top of the pipes/plates. It appears that it actually creates less gas in this configuration as it generates bubbles at the same level within the water. Less water, less bubbles… Need to do gas volume tests to see for sure.
Test-044: This test shows the cell configured and capped and ready for its first real measurement run. Also tried to explain an earlier comment about the electrodes themselves appearing to be making hydrogen.
Test-045: This test shows the discoloration in the water and how it sits on top of the cell and works its way down. So whatever it is seems to float.
Test-046 This video clip shows how I capture my gas volume for those interesting in trying to be consistent with our comparisons.
Test-047 This clip shows the 4 cell unit setup and describes some of the tests and things captured.
Test-048 This video clip shows what happens when you add KOH to the solution with the 3 plate cell.
Test-049 This video shows the initial construction peices of the Series Capacitor Cell.
Test-050 Here is the new Series Capacitor Cell being conditioned with 5% KOH solution.
Test-051 Here is the new Series Capacitor Cell being conditioned with 10% KOH solution.
Test-052 A few last minute tests and some ideas on the Series Capacitor cell design that I found interesting.