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  • CrystalDM:
    Thanks for the tips on the hydrate #5 process. I hope it works out as planned. The depolarizer is also an important issue, to help keep the hydrogen from building up and creating higher impedance and lowering the output.
    So, what can be done to protect the the metal when using Aluminum, instead? Anyone have any ideas that have been found to work on aluminum?

    Comment


    • Originally posted by b_rads View Post
      Ahhh,
      I can almost see the modernized De Beers' commercial with lovely hand models wearing exquisite multi-strand carbon fiber tubes, with Pave' inlayed capacitor nanotubes while being powered by the hand models perspiration, (otherwise known as unsolicited thermoregulatory sacrificial electrolyte donation) Tangential topic found here: (Harvesting Energy from Water Flow over Graphene - Nano Letters (ACS Publications) a plasma interlaced ARC reactor because diamonds have become so hoi palloi........
      Where is Karl Jenkins when you need him for auditory effect?
      Now you know why Carbon Tax has been talked about for so long......
      Clever foresight or is it Perfect clarity Hindsight?
      After all the private sector is around 100 years behind technology that exists off the record as they say.
      Jim

      Comment


      • jehdds

        Ha! I needed a good laugh

        thanks!

        Comment


        • Originally posted by NickZ View Post
          CrystalDM:
          Thanks for the tips on the hydrate #5 process. I hope it works out as planned. The depolarizer is also an important issue, to help keep the hydrogen from building up and creating higher impedance and lowering the output.
          So, what can be done to protect the the metal when using Aluminum, instead? Anyone have any ideas that have been found to work on aluminum?
          I just took apart a cell that had (non-treated)magnesium ribbon wrapped around a copper pipe soaked in Alum, and in a very short time there was nothing left of magnesium

          I treated another cell with dielectric grease on the magnesium ribbon and it seems to be holding fine, you may want to try it on the aluminum

          Just a thought

          Comment


          • Yes, that's a good idea. I've used a conductive grease on my connections, and on the inside of the aluminum capacitor cans that I've used to make the cells with. It did help with the external connection points as well.
            I was thinking more along the lines of an aluminum oxide layer treatment.
            Glad to hear the the grease helped with the Mg.

            Comment


            • @ Nickz: Try using clay (Al2O3, 2SiO2, 2H2O). It"s aluminium silicate or you can do your own with alumina and silicate. Maybe it has something to do with the coating that forms on the aluminium to protect it. I think it will bonds with the aluminium, same thing with magnesium and magnesium silicate. Try to dope with some aluminium filings in your mix to enhance the process. John talked alot about the epson salts (heptahydrates) for the ''magical mix'', but it has to do only for the magnesium as the neg. Since you use aluminium instead, try alum! It's potassium aluminium sulfate and it's in a more hydrated version of a sulfate. Just try to play with the basics here. If you use aluminium and copper, try also to stick with coumpounds that fit these elements.

              Comment


              • Originally posted by Allwest View Post
                I just took apart a cell that had (non-treated)magnesium ribbon wrapped around a copper pipe soaked in Alum, and in a very short time there was nothing left of magnesium

                I treated another cell with dielectric grease on the magnesium ribbon and it seems to be holding fine, you may want to try it on the aluminum

                Just a thought
                Did you observe or note a difference in the output ability between the two cells?

                The reason I ask is this information I found while working on the Aluminum/Air battery.
                The cell current will decrease as the metals become coated with oxides and other byproducts, however the voltage will remain constant as this is affected primariily by the electronegativity of the metals.
                Last edited by b_rads; 04-06-2012, 02:22 PM. Reason: Justified the question asked.

                Comment


                • b_rads

                  This is the cell I was working on
                  https://www.youtube.com/watch?v=eZqbBwBLQxY

                  There was two cells in the copper pipe

                  As you can see one cell had a voltage of about 1.67 and .44amps

                  The other had 1.50 volts and .22amps

                  The voltage pretty much stayed the same but the amps dropped off rapidly as the decay and oxidation of the magnesium began

                  I think if you did a study over time on these types of cells

                  Cell #1 high rate of decay big power for a short period of time .44Amps

                  Cell #2 low rate of decay low power for a longer period of time 4Ma

                  My guess is that they would both equal out to the same power output achieved at different times

                  The analogy of the
                  (The rabbit and the turtle) comes to mind,I guess time will tell if the turtle can keep going past the rabbit at the end of the cell life

                  Just some thoughts

                  Can any body calculate this, or has anybody done long term studies?

                  Comment


                  • Originally posted by Allwest View Post
                    b_rads
                    I think if you did a study over time on these types of cells

                    Cell #1 high rate of decay big power for a short period of time .44Amps

                    Cell #2 low rate of decay low power for a longer period of time 4Ma

                    My guess is that they would both equal out to the same power output achieved at different times

                    The analogy of the
                    (The rabbit and the turtle) comes to mind,I guess time will tell if the turtle can keep going past the rabbit at the end of the cell life

                    Just some thoughts

                    Can any body calculate this, or has anybody done long term studies?
                    Excellent observations Allwest. Your rabbit and turtle analogy is spot on. These results are very typical of what I have experienced.
                    For example: I have 3 zinc/copper water cells connected that have been powering a red LED for over 1 1/2 years. The same setup using drain cleaner, oxy cleaners, or bleach have a very short lifespan but will output way more current.

                    Thank you for sharing these results.

                    Brad S

                    Comment


                    • Allwest:
                      The actual readings in your video as shown by the meter is -0.44 amp, (negative), not positive + 0.44. What does it read, with opposite polarity?
                      There have been several people that show strong cells with higher current levels, only to have that drop to 1/10 or less of what they started at, after a while, when connected to leds. Once connected to a load, strong cells will produce lots of hydrogen gas that will saturate the cells positive pole, bottle-necking the ions, that will then drop the output. Unless,.... you use a proper de-polarizer, but one that doesn't destroy the metals.


                      B-rads: Yes, If the plan is to have some real useful light output, the stronger the cells become, the shorter is its life span, as this is all based on chemical reactions, that digest the metals. And is why I'm still hoping that the semiconductor type of cells may be the only way around it. As we have been hoping to build cells that can sit in a puddle of salts, and not oxidize. Not too likely.
                      And, you are also right about the oxides also being INSULATORS.

                      CrystalDM:
                      Thanks for your comments.
                      Aluminum will oxidize on its own very easily, almost instantly when exposed to even just open air, with a clear protective non conductive oxide layer. The thicker that this layer gets the weaker and less conductive the cells become, with higher resistance, as well as higher impedance.


                      John B: I have been wondering about what the current results and tests are with your 1 amp cell? As I've not heard anything more about it.
                      I have taken your advice to mix carbon with salt, which is giving me about 60mAs in my Aluminum/activated carbon cells. I'll be trying the MnO2 from D cells in my mix today.
                      I have not been able to find Epsom, or any other salt here yet, so table salt is still in my mix. 60 mA can light up several leds, all night long very brightly. I then disconnect the cells from the oscillators, during the day, so the cells can recuperate, somewhat, and the hydrogen gas can vent.
                      NickZ
                      Last edited by NickZ; 04-06-2012, 05:32 PM.

                      Comment


                      • The Tortoise and the Hare

                        Originally posted by Allwest View Post
                        b_rads

                        This is the cell I was working on
                        https://www.youtube.com/watch?v=eZqbBwBLQxY

                        There was two cells in the copper pipe

                        As you can see one cell had a voltage of about 1.67 and .44amps

                        The other had 1.50 volts and .22amps

                        The voltage pretty much stayed the same but the amps dropped off rapidly as the decay and oxidation of the magnesium began

                        I think if you did a study over time on these types of cells

                        Cell #1 high rate of decay big power for a short period of time .44Amps

                        Cell #2 low rate of decay low power for a longer period of time 4Ma

                        My guess is that they would both equal out to the same power output achieved at different times

                        The analogy of the
                        (The rabbit and the turtle) comes to mind,I guess time will tell if the turtle can keep going past the rabbit at the end of the cell life

                        Just some thoughts

                        Can any body calculate this, or has anybody done long term studies?
                        @Allwest and b-rads
                        I agree with your conclusions about how these cells work. You can go fast or go slow. The energy appears to be like gas in car. If you go slow the cell can last longer and you get better mileage. If you have a big gas tank (large pure magnesium anode) and the carburetor (crystalline electrolyte) is a good one, you have a very efficient situation. How hard you step on the gas pedal and draw out the energy makes a difference. These crystal cells seem to have a built in "restrictor plate" like in a stock car racecar that limits the current (horsepower) and thus extends the life span. Take away the restriction to get more power and the Mg gets eaten up fast. It is pretty simple chemistry really-------if these are typical galvanic cells.

                        You really need a lab to test these crystal cells to tell what is going on at the molecular level.

                        At this point I have not seen anything that produces USEABLE ENERGY without affecting the anode metal. You can have a static voltage on a cell, with microamp power, where the anode deteriorates extremely slow -----but so what? That doesn't prove anything. Gaining energy from the local environment or the Easter Bunny----I don't think so. If these cells are then it is very little.

                        The good news is that we have made some really great cells----call them what you want. We also learned alot. In my opinion this has not been a waste of time and I will continue on in the quest. Slow but sure like the turtle.


                        The Tortoise and the Hare - Wikipedia, the free encyclopedia

                        Lidmotor
                        Last edited by Lidmotor; 04-06-2012, 09:04 PM.

                        Comment


                        • "Allwest:
                          The actual readings in your video as shown by the meter is -0.44 amp, (negative), not positive + 0.44. What does it read, with opposite polarity?
                          There have been several people that show strong cells with higher current levels, only to have that drop to 1/10 or less of what they started at, after a while, when connected to leds. Once connected to a load, strong cells will produce lots of hydrogen gas that will saturate the cells positive pole, bottle-necking the ions, that will then drop the output. Unless,.... you use a proper de-polarizer, but one that doesn't destroy the metals."

                          NickZ,

                          I just had the wrong probes, it would read the same .44Amp positive, it started out at .54amps , the wet Alum eats Magnesium BIG TIME!

                          Did you see the chili powder power cell?
                          https://www.youtube.com/watch?v=8_kBmH-_OuA

                          This one only uses water and the magnesium is treated with dielectric grease, 1.45 volts with 100MA, it has dropped to 75MA and holding,(so far) same volts with no sign of decay on the mag

                          Comment


                          • Hydrated magnesium silicate take 2

                            I have found a really easy way to get this ''hydrate'' that John talked about. You can actually grow a garden of precipitate magnesium silicate. All you need is a solution of 40% sodium silicate mixed with distilled water and epson salt. @ All: Try this!! The epson salts will dissolve with ''serpentine like'' shapes in the solution! That's the magnesium silicate. The trick is to collect this ''garden'' and allow these new crystals to dry. Filtering with water is necessary to obtain a good quality cristal. It's like the talc (soapstone) mineral but you don't want the hydroxide in it. I think I finally got it!!

                            Comment


                            • Hydrate

                              Originally posted by CrystalDipoleMatrix View Post
                              I have found a really easy way to get this ''hydrate'' that John talked about. You can actually grow a garden of precipitate magnesium silicate. All you need is a solution of 40% sodium silicate mixed with distilled water and epson salt. @ All: Try this!! The epson salts will dissolve with ''serpentine like'' shapes in the solution! That's the magnesium silicate. The trick is to collect this ''garden'' and allow these new crystals to dry. Filtering with water is necessary to obtain a good quality cristal. It's like the talc (soapstone) mineral but you don't want the hydroxide in it. I think I finally got it!!
                              I think that this is the Hydrate that John B. is using now. I had to dig back in the thread to find the link to it. He just calls it Hydrate #9 which refers to the number of water molecules in there.

                              Sodium meta-Silicate, Nonahydrate, Crystal, Reagent * 13517-24-3

                              Kind of expensive. I think that Jim (Jehdds) has some.

                              Lidmotor

                              Comment


                              • hydrate

                                @Lidmotor, It was hydrate #5 but I think it's not that critical to the crystal mix because you will mix the 2 pinches of the magnesium silicate with the epson salt and it's an heptahydrate (7 molecules of h2O). I just don't know why he was not able to tell the right ''secret'' ingredient. But I think I found it now.

                                Comment

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