Axil,
I seem to recall this number of ions vs spillover cat was
challenged previously but combined with the idea Terry just introduced about
coating the heater element and an excess of electrons - you got my attention...
can you expand?
Regards
Fran
From: Axil Axil [mailto:[email protected]]
Sent: Friday, May 06, 2011 3:10 PM
To: [email protected]
Subject: EXTERNAL: Re: [Vo]:Focardi achieved considerable success in previous
experiments
You may now be able to accept this old post follows:
As I stated before in the Cat-E patent, Rossi ash contains no element heavier
the zinc. Rossi has stated that he does not use precious metals in the Cat-E.
The logical conclusion is that that there is no spill over catalyst mixed in
with the nickel catalyst.
The source of hydrogen ionization works at a distance from the surface of the
nickel powder.
The internal heater can generate a 1000 times more H- ions that any spill over
catalyst element could possible produce. This internal heater is capable of
ionizing the entire volume of the hydrogen if required.
The internal heater (cathode) must be placed at a precise distance from the
surface of the catalytic powder to maintain the correct electrostatic and heat
gradient in the hydrogen gas (vis'-à-vis' H- , H2). This distance is
determined experimentally.
On Fri, May 6, 2011 at 2:58 PM, Terry Blanton
<[email protected]<mailto:[email protected]>> wrote:
On Fri, May 6, 2011 at 2:54 PM, OrionWorks - Steven V Johnson
<[email protected]<mailto:[email protected]>> wrote:
> Of more concern to me: Wouldn't your speculation possibly result in a
> very dangerous electrical problem for any human who attempted to
> handle the e-cats? I'm thinking the electrical flow would would not be
> insulated. Or have I misunderstood something crucial here.
Well, did you see the wrappings on the reporter's video? Looked more
like electrical insulation than gamma or thermal.
Anyway, no, it would not necessarily have to be of a huge potential.
Consider the grid voltage of a triode verses the anode or cathode.
Very little control voltage is required.
T
