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Cola plasma reactor generates energy
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Several static and dynamic working prototypes confirms the new insights related to the PME's (Plasmatic Magnetic Energy) and the Keshe concept of SEPMAF's (Specific Entangled Plasmatic Magnetic Fields). In the design and technology of our reactor systems, the same principles and methods as in the universal physics are developed and similar effects have been achieved.
One of most simple static plasma reactors is the Cola Bottle. This is equipped with a number electrodes, from two to five.
In this cola bottle reactor we achieve several outputs of voltage and current, we create atomic hydrogen and we process simultaneously deposits of atomic carbon on electrodes. The processing in not based on chemical interaction, like with acids. The working of these static reactors is completely different from as it happens in existing batteries. Current is for example also collected from electrodes which are not submerged in the liquid, thus is collected from pure plasma. Next it is noted that the reactor recharges itself automatically while other terminals generate voltage.
The main goal to perform these tests is proving that the carbon from the gasses inside the drink can be collected and deposited on the electrodes. This is to demonstrate that the same principle can be utilized for separation of carbon from the exhaust gasses of cars and industry.
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Carbon and energy tests
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In next photos we show the steps of one of the tests we performed with the cola plasma reactor. The acids contained in the cola drink are not essential to create current.
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Testing the voltage and current with a multi-meter by connecting two different electrodes with each other.
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This photo (-364 mV) shows one of internal recharging processes, indicating the self-sustaining property of the closed reactor environment.
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Other outcomes have been found with other combinations of the electrodes. Similar voltages and current are also reached with both electrodes only in the plasma area (upper part), thus not submerged in the liquid.
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All photos were taken during the same test. After further processing the electrodes become black by the deposits of sp2's and sp3. Sp2 carbon (called 'graphene') is a ballistic (super-super) conductive material that can be used in micro- and nano-electronics. Sp3's are diamond-like structures. This all happens in a simple cola bottle, and not in complex systems with lasers and high pressure or vacuum!
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Transparent testing: During demonstrations for potential partners they can provide themselves proper electrodes (and the cola liquid). They can use their own multi-meter to measure the outcome. They are allowed to videotape the demonstration. After demonstration the electrodes with carbon deposits will be given back for proper or independent testing. We are even prepared to agree on more stringent testing set-up, like the making of the reactor (proper glue, and gluing the electrodes in an empty reactor bottle provided by the potential partner himself) in their presence.
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| The proof of concept shown by the processes in these static reactors when applied in dynamic reactors deliver a much higher electrical outcome, able to deliver electricity for various applications, such as for households, villages, cars, electronics, machines, industry, lighting and industrial processing. |
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