11v Quantum Power Cell Stack

5 months ago
67

Good day everyone,

Here's an update on my quantum power cells, which incorporate a solid-state PEG (polyethylene glycol) electrolyte mix with a carbon cathode and magnesium anode. After the cells dried properly, I was able to establish a perfectly symmetrical system. Due to the nature of series configurations and the slight variations between cells, my ability to test the series cell configuration was somewhat limited. To maintain perfect symmetry, I used ice trays and standardized templates for the electrode plates, ensuring each cell was filled with the same amount of PEG electrolyte.

These adjustments enabled the system to consistently produce 11.5 volts DC and a stable current of 2 mA from a 10 MΩ load on the meter. Interestingly, when arranged in a perfect series and symmetry is maintained, the cells display certain anomalies. The current increases, allowing for more power output at higher potential levels, thus enabling faster charging and more rapid discharging through capacitors.

I noticed that when powering loads, such as an LED, the voltage of the cell drops to match the running voltage of the load. Additionally, the AC fluctuations I observed earlier seem to intensify under load, causing random peaks in high current as the cell attempts to rebalance itself. This results in voltage fluctuations and varying LED brightness, reminiscent of the behavior observed by John Hutchison with his larger cell stack and an incandescent bulb, which also flickered with bright flashes.

This phenomenon suggests that these cells are behaving similarly to Hutchison's in terms of power dynamics and response under load

Secondary anomalies:
Ferroelectric capacitance
Electret at room temps
Piezoelectric response to frequency pulse and vibration.
Heat sensitivity.
AC fluctuations
High Current Random Bursts

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