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A unique mode of dynamic electrical possibilities. Page 1 Asymmetrical Plasma Electrolysis page 1 Asymmetrical Plasma Electrolysis page 2 Asymmetrical Plasma Electrolysis page 3
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So what is the big deal? 1. APE has been used to demonstrate transmutation of Tungsten into a variety of other metals. 2. APE may offer an alternative solution to making colloidal gold, possibly a faster method than any currently know. 3. APE has been shown to demonstrate 'Over Unity' making it a possible power source. 4. APE may be a key to understanding the chemical activity that could shed light on what ORME is and how it is produced. (see points # 1,2) 5. APE is a unique opportunity to study a wide range of electro-kinetic activities working in the same process and therefore this process appears to be a potential corner stone for plasma physics and the far reaching possibilities all with a few critical pieces of equipment to get started. If you slow down and think about these points for a while.. and realize that the data is too broad to be a random glitch then you must begin to see just how important this fundamental experiment is to the future of physical and quantum science. You can nearly perform these experiments in your living room for a very reasonable cost. Who says 'YOU' can't decode the universe? What is stopping you?
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Before I get started I think it is useful to direct you, to the very place I came upon this information. Thanks to JLN Labs we already have some very good data from his work. Watch the video if you have a chance, it puts everything into place nicely.
This next link is the kicker. I have been all over this information and I can see no great reason for the results other than what is claimed. The details on how they suppose transmutation takes place is (IMHO) rather well done. In any case, I was impressed (to say the least) and decided this experiment needs replication. Make sure to download 'The full report' in PDF on the first page. The English translation in PDF is very helpful in offering clarity to this information.
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1st APE run. ~ Power supply: 5kva variac rated up to 260vac output. ~ Variac protected by a 15amp circuit breaker ~ Output run through 2,36A 600V diodes in parallel for my - side ~ Into a 2,400uf 450v (max surge 525v) electrolytic capacitor. ~ 11g of Potassium Carbonate for 400ml of distilled water (0.2 Molar K2CO3 solution) in a 1 liter beaker.
As usual I like to break in slowly to see what happens. I didn't exactly trust these Mallory Capacitors not knowing how long they may have been sitting in storage somewhere. ~ WARNING ~ {Remember, until you have a glowing discharge you are making large quantities of Oxygen and Hydrogen! This mixture of gas is perfect for causing a fire when your electrode starts to burn the Hydrogen produced by the cathode. If you run the electrolysis function too long before you initiate the plasma mode then expect a small explosion!} I initialized the setup by starting out with 100-150v on the electrodes.
A golden light and a low fizzing sound was generating quite a bit of heat as expected so I let the system break itself in and heat the K2CO3 solution for a few minutes just to check the power supply components for excessive heat or malfunction while allowing the water to drop the resistance as it heated.
Breaking in your setup is always a good idea as you never know where you have a bad connection or something not quite safe you only consider after it burns or explodes. This is definitely some high energy setup so great care should be exercised for safety sake and if for no other reason, these capacitors are just too expensive to destroy from a careless mistake.
I did not take accurate temperature readings because I understood that the solution needed to heat up before I would get a proper run. The energy required to initiate a proper plasma is far greater when the solution is cold so the idea is to heat gradually until an equilibrium is reached that the solution will remain at a temperature over the short term because the input heat is nearly the same as the heat loss. Notice how the voltage reading on the electrodes is 15v higher as the water temperature increases and the plasma begins to take on the lavender hue rather than the golden color. Now we are ready to increase the voltage and get a proper APE run.
Wow! At an electrode voltage (variac output is 200vac) of 270V DC the solution is splashing quite a bit and the violent reaction is enough to make one take notice! Notice I included a plexiglass splash cover last minute to protect the area from hot solution. I run the APE for about 5 minutes and decide that is enough for the first run. One thing I notice is that the voltage is unstable during this faze and jumps about 10v up or down. This is definitely a sign that the energy density of the plasma needs to be examined later verses the input power. For now this is just an initial setup to see how it goes. The interesting thing is that you can see the hydrogen sheath very well when it is energized into a plasma and notice the particular way that the plasma rides over the surface of the cathode during this process. I shall need much better photos of this in my next few runs as it needs to be studied further and may shed light on what this process is doing. Something interesting definitely took place though I did not imagine at this early stage of replication that anything truly amazing would result. These results speak for themself. |
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All content and photos copyright (c) 2005,2006,2007 Karl Reinhart of The Shekinahguild. |
