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This post is about some experimental cells I have been working with and I wanted to share.
Before I start I want to thank Mr. Bedini and Chuck for sharing their knowledge with everyone.
Now about the cells:
They are constructed with Lead wire (99.9% pure) and Zinc Wire (99.9% pure) both 1/8th inch diameter. I used 5 feet of each per cell.
The electrolyte is a 50/50 mix of Alum and Sodium carbonate. To mix this I just put equal amounts dry into a cup and then added distilled water. Mix vigorously until reaction finishes. You may need to add a little water while mixing but in the end i made it to about the consistency of grits.
The inner core is the zinc and is the negative pole of the cell. The lead is on the outer portion of the core. In the picture below you can see what the core looked like but I did change it. Originally I had a separator cut out of 1/2 inch PVC with windows cut out but I found that the Lead would not stay put with that design. Later I wrapped the inner core in a few coffee filters and electrolyte then wrapped the Lead tightly around; which I think improved the cells operation and kept the Lead evenly distributed around the inner core.
The housing for the cell is 1 1/4 inch PVC pipe. I constructed the core and put it down into the tube. Then I pored electrolyte down in there until it was about 1/4 inch from the top.
When charging these cells they get wet ( release water) and when discharging they solidify a bit. It is the action that Mr. Bedini has described. They do not dry up when discharged but for example you could tip them upside down and nothing would spill.
Now the really cool part of this is that I am charging them from a Solid state energizer I built. These cells were formed, charged, everything with radiant energy. They have never seen normal DC power. They also have never had any acid, not even while forming.
This charger is not the focus of this thread but here is a shot of it. It is wired up basically how Patrick does with his cap-diode mod and moving the bottom side of the trigger coil.
Here is a chart of one cell charging, resting, under load, and resting, then repeated. I did that twice in a row on this chart to show that the cell operates consistently. These were also short tests. The scale on the bottom is seconds and on the left is volts. I did a 1000 sec count for each portion of the cycle.
The load is a 2.5 volt 150ma bulb which is a very heavy load for just one cell. I am still conditioning these cells but soon I will start putting them in series which should be closer to the voltage that that bulb wants to see. I can say that these cells are getting better (more capacity) with each cycle i put them through and I expect them to be very useful once they get broke in.
Another thing worth noting is that I am dragging these things down to like 40 mv under load and they bounce right back with no problem, just amazing!
I plan to get these broke in and then start charting them in series. You may be able to see in the pic that they are starting to form, the Zinc is getting a grey color and the Lead is brown'ish. Anyway there is a lot that could be done with these and I am having a blast tinkering with all of the technology I am learning about here at the forum. My main reason for posting this was to give others a look at what can be done by an amateur and maybe give others an idea for how to try it out themselves. I am very green to all of this so do not take me as if I know it all, I know that I have barley started to understand.
Before I start I want to thank Mr. Bedini and Chuck for sharing their knowledge with everyone.
Now about the cells:
They are constructed with Lead wire (99.9% pure) and Zinc Wire (99.9% pure) both 1/8th inch diameter. I used 5 feet of each per cell.
The electrolyte is a 50/50 mix of Alum and Sodium carbonate. To mix this I just put equal amounts dry into a cup and then added distilled water. Mix vigorously until reaction finishes. You may need to add a little water while mixing but in the end i made it to about the consistency of grits.
The inner core is the zinc and is the negative pole of the cell. The lead is on the outer portion of the core. In the picture below you can see what the core looked like but I did change it. Originally I had a separator cut out of 1/2 inch PVC with windows cut out but I found that the Lead would not stay put with that design. Later I wrapped the inner core in a few coffee filters and electrolyte then wrapped the Lead tightly around; which I think improved the cells operation and kept the Lead evenly distributed around the inner core.
The housing for the cell is 1 1/4 inch PVC pipe. I constructed the core and put it down into the tube. Then I pored electrolyte down in there until it was about 1/4 inch from the top.
When charging these cells they get wet ( release water) and when discharging they solidify a bit. It is the action that Mr. Bedini has described. They do not dry up when discharged but for example you could tip them upside down and nothing would spill.
Now the really cool part of this is that I am charging them from a Solid state energizer I built. These cells were formed, charged, everything with radiant energy. They have never seen normal DC power. They also have never had any acid, not even while forming.
This charger is not the focus of this thread but here is a shot of it. It is wired up basically how Patrick does with his cap-diode mod and moving the bottom side of the trigger coil.
Here is a chart of one cell charging, resting, under load, and resting, then repeated. I did that twice in a row on this chart to show that the cell operates consistently. These were also short tests. The scale on the bottom is seconds and on the left is volts. I did a 1000 sec count for each portion of the cycle.
The load is a 2.5 volt 150ma bulb which is a very heavy load for just one cell. I am still conditioning these cells but soon I will start putting them in series which should be closer to the voltage that that bulb wants to see. I can say that these cells are getting better (more capacity) with each cycle i put them through and I expect them to be very useful once they get broke in.
Another thing worth noting is that I am dragging these things down to like 40 mv under load and they bounce right back with no problem, just amazing!
I plan to get these broke in and then start charting them in series. You may be able to see in the pic that they are starting to form, the Zinc is getting a grey color and the Lead is brown'ish. Anyway there is a lot that could be done with these and I am having a blast tinkering with all of the technology I am learning about here at the forum. My main reason for posting this was to give others a look at what can be done by an amateur and maybe give others an idea for how to try it out themselves. I am very green to all of this so do not take me as if I know it all, I know that I have barley started to understand.
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