HHO Self-Resonating Circuit [Snow Water]
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- Опубликовано: 11 сен 2024
- INPUT 24VDC, 0.617A. Resonance 175VDC Peak, 1100Hz
Microwave transformer circuit (WIP)
INPUT 12VDC, 1.16A. Resonance 60VDC Peak, 1250Hz
Impedance-matching circuit wiring diagram i.imgur.com/2k...
In the video I make several mistakes. First, the wires going to the water capacitor were both down at the bottom; it is good to have one wire up top, and other wire on the bottom. The miniscule current leakage will find whatever smallest path necessary, and channel back to the wire without even encompassing the entire casing.
Second, I'm playing with the high voltage lead and shorting it. That was a big mistake. The diodes were ruined instantly, and I eventually lost DC to the cell after continuing to do so. When the diodes are killed, they don't block, and you get AC off the MOTs. You will get no hydrogen with AC. The only reason it worked in the video was because only a few diodes fried, and the tiny amount that formed in the snow water was momentary.
Last, ice water has far less impedance than room temperature water, assisting current leakage and denying the WFC's functionality to work as a capacitor. You want highly resistive water, distilled water, without being super low temperature, that way, you don't leak current, and the voltage stays high enough.
![HHO High Voltage WFC with Resonance [No Electrolyte]](http://i.ytimg.com/vi/fYrvgPet2gU/mqdefault.jpg)
![HHO High Voltage WFC with Resonance [No Electrolyte]](/img/tr.png)
Hook your cell to a DC welder and you'll understand that you don't have to mess with all these complicated resonance circuits. First, get the production, then increase the efficiency. It doesn't do much if you're 100X Faraday limit if your producing 1ml of gas per hour. If you start playing with dissimilar metals, the cell produces it's own electricity. Then hook up your cell direct to the engine intake and block out outside air. Just allow a very small amount in. Water has its own oxygen. Most powerful geometry is a tube with a threaded rod in the middle, made of dissimilar metals. Carbon and Zinc create a galvanic current when shorted. Same for aluminum/magnesium. You can even use aluminum and steel, if you can keep the oxides from stopping the reaction. The least harmful materials for the environment would be Titanium and Carbon.
My understanding is that if you can keep the electrolyte moving, it will deter oxidation. It's also been said to use copper.
Well Done Stan KNows you will get it
Where are the 2 L coils resonating with the water capacitor? Minimum 1500v required from back EMF flyback higher voltage. Also automatic frequency adjuster circuit needed. Tap metal tubes with scope and determine setting that will be same as cell frequency and input source frequency applied. (Aided by metal vibration to release stuck ions) Original Meyer circuit was Burst mode design of about 3 seconds on time low volts + current just for aligning the water molecules polarity, then 7 seconds offtime high volts applied., so as major H+H+O_ _ Similar circuit as used in the gun for laser tag system game. See also circuit for "The Time Machine " using 2 -555 timers. That has 2 ways to hook it up burst mode. You need the 2 original WFC manuals- Birth Of New Technology and Dealership Manual WFC. Purchase or study on line Internet.
Great work here ! #RealScience
Very good work!
Man I was getting good bubbles with bike spokes rubber bands & plastic pipe just by being out in the SUN.
What lol? Is it cheap to make and easy to source? Would love to feature it!
I feel like you are going about this wrong. But before I judge anything I have to ask your untention...
Are you trying to make a self-resonating high-voltage circuit in general(and the HHO gen is just to test the circuit)? Or is your primary focus in getting the most out of an HHO gen?
Depending in what your trying to do there would be a much better way of approaching it. So I must know, what is your goal with this?
can u share the output flow rate of hho ? with different input voltages and currents? ...thanks
I suggest the inside tube not be a tube but a carbon rod of correct diameter, reduces resistance and lowers water temperature, just a suggestion
Hi, could you help me to make it? I don't understand which kind of coil I should use from each side of the capacitor in the water.
Ty! Was wondering what you meant by impedience? Did you just mean resistance or impenitence you get from two waves are out of phase and cancel each other?
2. How do you capture the hydrogen and use it? Can you compress it?
impedance is primarily resistivity, like on a transformer primary you need a certain ohm for the coil to not cause a short and induct properly. Water is the same way. Every type of water has a different impedance, and this circuit matches it based on the bjt opening and closing at the frequency of the circuit varying due to the water. It's quite nice actually.
@@weighta6630 Interesting! So what is the ohms of the water you are using?
@@l0I0I0I0 No clue on exact, but snow probably isn't too far off from rain, which comes second to distilled water
can you create 3L/m with low power?
If you have the impedance matching circuit handy maybe the one you use , i like simple few parts circuit for obvious reasons
Is this what flatearthers do in their sparetime?
pulse 1,2,3 fasion at a frequency of 432 hz or any multiple or halve of 432
What advantage does this have? Any reaction I dont know?
You know that the efficiency is impacted by current density and the distance the ions have to move, and not the voltage. While the Voltage does influence how much Current can flow (and in some cases if something happens at all), its going to lower your efficiency, since a high current density lowers Efficiency. A high voltage does produce side products and corrodes your electrons, too.
To make a efficient HHO Generator (if you need one, HHO Gas is very explosive and cant be stored very well, since it includes the oxygen it needs to burn), you should do the following things:
Increase surface area, to lower current density and/or increase overall current (more surface = easier reaction = less resistance = less voltage per current = less voltage per reaction = less energy per reaction or more reaction per Energy)
Lower the distance the Ions have to move through the water (less distance = less resistance = less voltage per current = less voltage per reaction = less energy per reaction)
Use better materials that decreases the required voltage for electrolysis. You can find a list of materials on Wikipedia ("Overpotential")
that was hilarious
Should increase efficiency. Only empirical observation we suffice
try using 3,6, or 9 pieces of stainless instead of two or four
Where can I find schematics for the impedance matching circuits? I have a few ideas I want to try myself.
Have you ever tried less than 1 mm spacing between electrodes, such that capillary action will bring water up to the top of the elements?
Have you ever tried using a flyback transformer instead of the microwave transformers so you have a strong DC offset , i.e. polarized, while still achieving resonance?
Here's my favorite one. Super simple i.imgur.com/2koIjmC.png
I have just now considered less than 1mm. Difficult to do, but worth it, as Ravi states.
I have not tried a flyback transformer, as I am trying to make this circuit as simple and easy to build as possible.
@@weighta6630 cool! Thanks! , Have you had the opportunity to check its impedance matching ability with any equipment like an oscilloscope or anything? Can't afford any good test equipment myself... Looking at the schematic, that specific transistor used to be called for a lot in Old designs and I'm wondering how old that design is, cuz in the original way of manufacturing that transistor ,it had a higher capacitance that would change the frequency...
The reason why I think sub-millimeter electrode spacing would be better, is because of the polarization effect of a hydrophilic surface, I suspect that might act catalyticly
@@petevenuti7355 You are right, old tech indeed. I do have a scope sitting on the table I use many times in my videos. I will get on with something shorter than 1mm
@@weighta6630 Try using a flaring tool. Flare just the top end of the positive tube. You can over size it then just adjust the height to squeeze the gap.
This will create a bottle neck effect which should produce more hydrogen
while using less current. And make it's own resonance.
Use stainless still and potassium hydroxide as a electrolyte the water stays clear, and also get 316 stainless steel wire to have in the water , copper should not be in the water
My production is very fast, i purposely used plates with were 0.1mm thick i got 10plate so 10x the surface area of 1x1mm plate less current is needed.
Check out my
Video
Meyer quoted a Bible quote that referemces snow. He used it in his letterhead and painted it on the car. There is heavy water in snow. Meyer used the bible reference Job 38: 22-23. From the least modified bible text the KVJ version says quote
"Hast thou entered into the treasures of the snow? or hast thou seen the treasures of the hail,
23 Which I have reserved against the time of trouble, against the day of battle and war?"
He mentions this is one of his talks.
Woah, that's so cool. Do you remember which talk it was? I watched countless videos of his, all I remember is the one commercial where he says if you don't have rain or ocean water then use snow.
@@weighta6630 i don't recall which talk sorry. will try and find it...
shouldn't the inner tube be negative?
It is now. It's has problems with outer being negative for lack of resistive barrier forming.
👍
Good job man, do you have some contact ig tg ?
I don't sorry, but I can accommodate another source of chatting platform some other time.