I have a sort of a energy collector around an electrolysis process which can
proove amusing, but that is beside the point. I have reached a disappointing
prognosis here, but rather then abandoning all efforts and complaining about
such I have high hopes of redemption afforded here by recovery and recycling of
lost assets. What I have done is somewhat remarkable in that my line losses of
delivery to the water cell have been recovered to such a remarkable degree,
that I decreed that safety valves in the form of 5 inch neon tubes @ 500-600
volt firing range should be installed in my magnetic collection coils to
prevent them from disturbing the currents to my cell. What happens is that
these neons blink very rapidly on each side of the delivery lines to the cell,
although the neons are powered thru the air alone via the AC delivery lines to
the rectified water cell.
I am perplexed how to add this subsidiary high voltage obtained thru the air
as wasted energy back into the cell. I thought of putting a high voltage DC
pulse thru the cell sporiadically by means of a storage till discharge
mechanism in the form of an arc gap across the cell.
In this regard a rectification can be put across the extra neon voltage,
and that current can be made to charge a cap in the DC manner, and it can be
also made to discharge against a load.
But it is also true that a large capacity could be selected as that load,
and when discharged it makes a larger pop. But if the needle held 3000 volts
potential between it at a set distance, would the discharge rate be more rapid
if more storage of capacity were released as arcing between the pulses?
HDN
