| |
Search videos for electrolysis |
|
|
|
|
Plasma electrolysis cell test
By taking periodic measurements of the voltage and current applied to the cell, averaging and then multiplying them to obtain average power, then multiplying that value by the total run time, the energy input to the cell was calculated. The before and after mass of the water was measured to find the amount lost by evaporation, and therefore the evaporation energy and that value was added to the energy due to the temperature change of the water to find the approximate output energy (this calculation did not include energy lost by the production of hydrogen and oxygen, which would have made the output somewhat larger). The output energy was divided by the input to find the coefficient of performance (COP). The COP obtained in this trial was 0.88, which means the measured output was less than the input, meaning the cell did not produce measurable energy.
The experiment was done in an attempt to verify reports of anomalous energy production during the process. Several scientific papers have been published suggesting that the excess energy might be nuclear in origin. Some examples here:
http://lenr-canr.org/acrobat/CirilloDtransmutat.pdf
http://lenr-canr.org/acrobat/MizunoTproduction.pdf
http://lenr-canr.org/acrobat/MizunoTconfirmatib.pdf
Length: 164
Rating: 4.10 (48 ratings)
Tags: plasma electrolysis cell reactor cold fusion energy
|
Play |
|
|
Hydrogen Electrolysis - 1 Part 1
http://www.hho4free.com
MUST READ THIS - Electrolysis of water into Hydrogen & Oxygen. Increase your MPG via the unused power of your Alternator, while you drive.
These are the first hydrogen cells we made last year. We started with the Joe Cell concept and modified it for Electrolysis. The 4 parts of this video show you the inner works of the gas production. You will see, from a birds eye view, the gas being produced in a solid stainless steel container; one that can be put under a strong vaccum. At startup, notice that the gas is being produced in the center of the cell. It then starts producing in adjacent tubes as current moves towards the positive outer tube. For this to happen, your tubes need to be properly aligned North and South. That is, the tops of each tube must be magnetic North, and the bottoms must be magnetic South (the tubes contain "some" magnetism. Think of the tube as a magnet. If your alignment is off on a tube, there will be little to no gas production around that tube. You can test your tubes for N & S by putting a needle on a thread and magnetizing the tip of the needle (N or S). Hang the thread over the tube, just barely clearing the surface, and rock each end of the tube under the needle. It will start to swing as you rock. One end will swing more than the other. Mark them accordingly and put your tubes together with the like marks facing the same direction. It works.
Part 2 shows more hydrogen production, and several different size cells, with different tube configurations. Please read the important details I added to the right of each video.
Later, in Part 3, you will see gas being produced in a glass jar. Pay attention to what influence the magnetic field has on the hydrogen bubbles.
Part 4 is about exploding a balloon filled with HHO gas (I love that part).
I would like to point out that if you build your cell out of stainless steel, as we did, it will withstand Flashback explosions. Plastic can blow up.
I would also like to point out another advantage of an all stainless steel unit. Electrolysis causes heat. The longer the cell runs, the hotter it gets, the hotter it gets, the more current you're going to get. Your plastic and rubber units will get soft and may explode. If your cell is under a vaccume, it will implode. However, your steel unit will take a lickin and keep on tickin. Be smart, be safe, use metal containers.
If you want to control your current (amperage), and you do want to control it, use a DC volt PWM to regulate it. You can find 15 amp continuous to 80 amp continuous PWM's on ebay. They will pulse your DC voltage to the cell. The pulsing will also help regulate the heat. You want heat, but you need to control it. The PWM will help you do that.
Visit my channel to get details of all of my videos. It will be a learning experience.
http://www.youtube.com/daddyo44907
Length: 479
Rating: 4.70 (55 ratings)
Tags: fuel cell hydrogen oxygen tesla coil electrolysis joe generator hho h2o hoh water pwm free
|
Play |
|
|
Magnet Electrolysis Water/Vineger Vortex
The samething as my other magnet electrolysis video, but this time I used vineger instead of water with salt disolved in it. The vinegar I bought has 5% acetic acid.
The same spining bubble formations appear but this time no ugly by-products are created.
Length: 61
Rating: 4.60 (5 ratings)
Tags: Magnet Electrolysis Water Vineger Vortex
|
Play |
|
|
HHO Aluminum electrolysis production
So i am giving my best shot at this HHO production test. There are 2 ways to make hydrogen electrolysis and a chemical reaction. So I am going to try and use both, which would be controling the chemical reaction with electrolysis. I have absolutly no clue what i am doing... So input would be appreciated
Length: 111
Rating: 4.50 (2 ratings)
Tags: HHO aluminum torch production spacing electrodes hydrogen power alternative fuel burning water bomb
|
Play |
|
|
Electrolysis in distilled water with no electrolyte
"Crux_fwc" is involved in a project with the H2earth Institute to replicate the work of the late Stanley Meyer, who ran vehicles on water.
Crux_fwc's electrolysis cell is making hydrogen gas in distilled water, with no electrolyte. Conventional electrolysis, which, by definition, relies on a conductive medium, says that is impossible.
The cell in this video is 4 inches tall with outer tube diameter of 0.75 inches and inner tube diameter of 0.5 inches; running on 96 volts x 3.3 amps = 316 watts at 240Hz; with iron core bifilar chokes.
He said, "My WFC circuit is not complete yet so I really do not recommend that people replicate it."
"His username at http://waterfuelcell.org is "crux_wfc".
See also the Water Fuel Cell open source project page at http://WaterCell.info hosted by PES Network, Inc.
Length: 34
Rating: 5.00 (18 ratings)
Tags: water fuel cell electrolysis hydrogen stanley meyer energy clean
|
Play |
|
|
Hydrogen Electrolysis - 1 Part 2
http://www.hho4free.com
PLEASE READ - See a few examples of how you can cofigure your hydrogen cell. The surface area and the distance between the tubes plays a big factor in your gas production. The closer the spacing, the less resistance there will be from tube to tube, thus more current can flow, thus more gas can be produced. Adding electrolites to the water lowers the resistance even more, wich causes it to produce more gas. We add Sodium Hydroxide in small amounts, a little at a time, and monitor the current (amperage). Ohms Law is working here, not rocket science, but it does require some experimenting. The cell runing in the video is using 15 amps. I have run as much as 60 amps on it. But my 60 amp alternator can not handle that for long periods unless it can be kept cool. I have not provide all of the answers for you here, but I do hope I have stired your interest.
Visit my channel to get details of all of my videos. It will be a learning experience.
http://www.youtube.com/daddyo44907
Length: 363
Rating: 4.70 (15 ratings)
Tags: fuel cell hydrogen oxygen electrolysis tesla coil hho h2o water generator free
|
Play |
|
|
