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Self-charging high energy density supercapacitor

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  • Self-charging high energy density supercapacitor

    Hi! It's been a while since I posted perpetual motion machines here . Today I am publishing a self-charging supercapacitor Patent UA115206 U . The author of the patent has done a lot of work, the document contains about 100 tests of various self-charging cells.This document could not be found in English.The original document will be attached.
    The approximate translation of the name of this cell is Condenser - Concentrator of environmental energy. ( C-Kessor )

    My understanding of technology. The difference from a supercapacitor is that its electrodes differ in material composition.The method of selecting electrodes is very similar to the method of creating thermocouples.Apparently for this reason there is a large influx of energy from their external environment.
    One example taken from the patent : Silicon - Graphene - Separator - Graphene - Graphite 0.5 Volt 3 Ampere (size D ? ). Electrolyte 38 percent aqueous solution of sulfuric acid.


    I was intrigued by this information and did some simple tests. These preliminary tests confirm the information in the patent.Of course, more independent tests are needed.
    The most interesting thing is that this technology is very accessible and easy to repeat and scale. In the following posts I will try to add information about my replications, tests and details about this patent.
    Attached Files

  • #2
    I'll try to add a photo of my test of a self-charging supercapacitor. This is my free interpretation of this technology. The cell is made from a 5 ml syringe and has the following diagram

    Steel - Activated carbon - Separator - Activated carbon - Constantan. 0.4 Volts 3 Milliamperes. Electrolyte approximately 30 percent aqueous solution of citric acid.
    I will also add that this cell has been operating for 7 months without any deterioration in its parameters. It has also survived numerous short-circuit current measurements without any problems.

    Best regards, Boris
    Last edited by BorisKrabow; 10-25-2024, 01:31 AM.

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    • #3
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      Last edited by String Theory; 12-22-2024, 05:33 AM.

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      • #4
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        Last edited by String Theory; 12-22-2024, 05:33 AM.

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        • #5
          Hi ! It might be useful to show different types of self-charging cell designs (Star cells). More accessible materials can be used when scaling. the use of chemically resistant materials can extend the operating time of such an energy source to indefinitely .
          Carbon electrode - Graphite electrode voltage about 0.3 Volt.

          According to some information, charcoal can be used in supercapacitors as a secondary layer (filler), but I have not checked this yet.

          Additional information on electrolytes: supercapacitors cannot operate with low electrolyte concentrations. In this case, ions cannot accumulate and the cell energy will be low.
          You will receive a regular Karpen battery

          Conversion of low voltage to higher voltage may be considered separately. There are good voltage converters from 0.1 volts to 5 volts. This is not a problem

          Best regards, Boris
          Attached Files

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          • #6
            Hi ! I translated this patent into English. Google did a good job. The document is attached. Perhaps the document in English will be more accessible to readers from all over the world.

            Please note that Silicon-Graphite electrode pairs are very chemically stable in acidic electrolytes.such a cell can work for decades, possibly centuries....

            The Iron-Nickel cell has reversible electrodes that can be restored even after a deep discharge. It is possible to obtain a large and long-lasting discharge current by using chemical and ionic energies simultaneously ( This requires study and testing ).

            Best regards, Boris
            Attached Files

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            • #7
              Hi! I found some interesting videos. The first video shows an affordable and professional supercapacitor, and the other one shows a simple and crude version of a supercapacitor. This may help in making self-charging cells. 1 https://www.youtube.com/watch?v=CNkXp1dVcmo 2 https://www.youtube.com/watch?v=NavCgOiSmKU

              The photo shows one of the variants of a crystalline cell that can be converted into a self-charging supercapacitor with a crystalline electrolyte.


              Best regards, Boris

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              • #8
                Hi ! With the holidays approaching, I wanted to post some sweet surprise..... This is Caramel Cell ! The caramel is cooked in an aluminum container, and when it is ready, a graphite electrode is placed directly into the boiling caramel. There must be an insulating gasket under the electrode to avoid short circuits.
                After some time, the caramel hardens and now the electric candy is ready. Voltage 0.5 Volt, current 1 Milliampere.

                The recipe for caramel is very simple. Add a very small amount of water and a few crystals of citric acid to the sugar and cook until it turns light brown.


                Best regards, Boris

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                • #9
                  Recently, technologies similar to those discussed in this topic have begun to appear.For example, in the photos below you can see energy harvesters produced at the factory.
                  The reason for the high energy activity of Graphene has also become known. Graphene has an abnormally large oscillation associated with the thermal noise of the substance. Picture attached.

                  Best regards, Boris
                  Last edited by BorisKrabow; 12-22-2024, 02:58 PM.

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