Series Cell with CAPACITIVE TRANSFORMER - Part 1
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in your diagram how come you have it in a series circuit when you said you had it in parallel
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can any1 tell me wat is the specific purpose to have the capacitor in the circuit? just to rectify the oscillating AC? thanx.
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My setup copies yours... except my capacitors is 35uf @440 volts ... my rectifiers is 15amps rating ans can handle 270volts
these component should be enough... just curious why i can get hardly any bubbles... no heat which is cool ,,, but also no bubbles... any input would be greatly appreciated... because i think your video is right on!
thank you!
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i have almost the same exact setup ... but i dont get very much production of hho about 1/10 of yours... do you know why?
thanks
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could someone please tell me if i can use my ignition coil pack as a pulsing step up transformer??
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what's more, when i added more potassium hydroxide the voltagae after the capacitor was 16 vac and then rectified into 16 vdc going to the cell. then i added more and the voltage dropped 12.35 volts but the output seems to have increased. more bubbles bubbling faster throught the bubbler. weird.
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i tried this same exact setup and was disappointed with the output. then i started taking measurements. yes the cell does take very very long to heat up but that's because using a 50mft motor run capacitor, like the one in this vid, cuts the 110 volts ac to 24 volts ac. i was a bit disappointed when i tried this. You should mention this in the video. using a 5mfd capactior only allows 9 volts to the cell from 110 vac.
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nice circuit, very simple I'll try making one :)
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This circuit works as he describes it. For every 50uf you will get a maximum of 2 amps. IE 50uf = 2amps maximum, 100uf = 4 amps maximum, and so on. Definitely be careful around house current if you want to try this though.
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wow thats pretty cool.
i plugged in my cell to a house outlet - the thing made some gas, but when I added baking soda it really sucked more power. It resulted in making more gas, but LOTS more heat transfered to the water. Wires got very hot and eventually the breakers tripped & the water was boiling.
Neat stuff, a little over my head, but neat. Perhaps this could be used in a vehicle to reduce the heat build up.
Good job, keep up the good work.
:)
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110Volt DC can kill you, dangerous experiment!
And
For electrolysis you only need ~1.5voltDC/cell;
not 110 volt, you make a lot of heat instead of Hydroxy gas.
maituub 4 years ago
you are ABSOLUTELY WRONG!
a true series cell (which this is) divides the voltage between each cell, so if I were using 50 cells the V across each = 2V. AND voltage does NOT contribute to heat. In fact even when I DOUBLE the input current it takes 20 MINUTES to reach 120F. You will see all of this in future videos.
tvryb 4 years ago
You, are still wrong.
You use 110Volts on 7 plates,= 6 Cells.
Thats more then 18 Volts per Cell.
... Way to much for optimal gas production.
It's because you apply only 2Amps it's take
a wile to feel the heat.
Try 12 Volts.
But your capacitor idea is worth examining.
And your Video's are much better then most others on Utube.
maituub 4 years ago 2
yes I realize this. I just happened to have an old 7 plate cell design on the shelf, And, yes I originally intended to use 12v, but it was a miserable failure! why?? because I'm using NaHCO3 as an electrolyte, which needs 4v per cell to work! 12v / 7 = 1.7V per cell. Thus at 12v it doesn't work at all! With KOH it's a different story. At the moment I'm looking for efficiency on the supply end.
Anyway I appreciate the concern:)
thanks and stay tuned!
tvryb 4 years ago
Show us a simple gas output measurement with a bubbler with and without the capacitor. And I will tell you the cell efficiency with the two concepts.
Regards
Øystein
oystla 4 years ago
patience, patience.. I'm gettin to that/
this cell was designed to take internal pressure. I just spent a week completely resealing it. I can't wait to test it either.
tvryb 4 years ago