Crystal Cell Research

[4Tesla]

Thanks David!!

It is a 2in1 solution.. both a diode and a protective layer.

Very cool! 

[drodenbe]

Fausto:

Hooked up my original cell I made a month ago to a 100 ohm load just to see what it would do.  I made it the same way but no cement.  Made from 1.5 inch by 4.5 inch long thick walled aluminum conduit and a 1/2 in copper pipe.  The graph is close to other one but I see it is curving down a bit.  It looked almost like the one I have been posting at first but it is at .661 volts and curving down.  Not sure where it is going at this point.  Will see tomorrow.  Have a good evening. 

David

[4Tesla]

Hi David,

I was wondering.. once the oxides are dry.. are they hard or do they rub off easily.

Thanks,
4Tesla

[drodenbe]

4Tesla:  Yes it will rub off real easy.  I only let it dry for about an hour.  It will take a couple days other wise before it drys to that level. 

Here is my graphs for this morning.  I included the old first cell with just the sodium meta silicate pentahydroxide and no cement.  But the aluminum cylinder was treated with the oxide layer.  It was made over a month ago and has been setting on shelf.  I was surprised to see that it functioned almost as good as the latest cell with the larger number of plates.  So we will see after time as Fausto has said.  If any one has a better idea of how to get a thick layer of oxide on the aluminum please share.  I originally was going to try the powdered aluminum oxide but wasn't sure how to get it to stick on the aluminum.  Maybe wetting it with water and forming a past then spreading it on like butter then letting it dry may work.  I might try that with some flat plates for simplicity sake.  Will have to purchase some though.  The graph on the older cell doesn't show it but it started out at 1.25 volts.  I will in the future have to let the graph run for a little while before connecting the load to reflect this.  I connected the load almost as soon as I started the graph.  Just FYI.

David

[plengo]

4Tesla:  Yes it will rub off real easy.  I only let it dry for about an hour.  It will take a couple days other wise before it drys to that level. 

Here is my graphs for this morning.  I included the old first cell with just the sodium meta silicate pentahydroxide and no cement.  But the aluminum cylinder was treated with the oxide layer.  It was made over a month ago and has been setting on shelf.  I was surprised to see that it functioned almost as good as the latest cell with the larger number of plates.  So we will see after time as Fausto has said.  If any one has a better idea of how to get a thick layer of oxide on the aluminum please share.  I originally was going to try the powdered aluminum oxide but wasn't sure how to get it to stick on the aluminum.  Maybe wetting it with water and forming a past then spreading it on like butter then letting it dry may work.  I might try that with some flat plates for simplicity sake.  Will have to purchase some though.  The graph on the older cell doesn't show it but it started out at 1.25 volts.  I will in the future have to let the graph run for a little while before connecting the load to reflect this.  I connected the load almost as soon as I started the graph.  Just FYI.

David

Thank you for the graphs again. We need some reorganization. Give each cell a specific number/name while uploading the pictures so that we know which picture is what from older posts. Now I am confused to which one is the FIRST you showed before and what you have.


The cells without load we cannot really consider except to note the "open" voltage (no load) and later we will use that as a base line to calculate its internal resistance.


Don't worry about going down/up yet. That IS WHAT WE NEED TO SEE.


On this second graph, I notice two little bumps right after the first exponential decay and its recovery when you put the load. Did you bang the table or moved the cell while connected? If NOT, that bump is the break down of crystal structure inside the cell (release of water/gasses) that causes a momentary "bust" of power because the water release inside which increase conductivity inside the cell and "more fuel" until it gets absorbed again by the crystals.


How I know that? Because in hundreds of cells I did this experiment where I leave it under load and constantly add water at different time of its life while connected on the graph and perceived the same reaction.

Fausto.