Axil--
You stated:
>If a system with a fixed NAE count, the NAE will just self destruct before
>meltdown occurs.>
This may not be the case if the initiation of the reaction to produce the
energy is controlled by some small energy input and not self sustaining from
NAE to NAE.
Bob
----- Original Message -----
From: Axil Axil
To: vortex-l
Sent: Monday, March 03, 2014 6:53 AM
Subject: Re: [Vo]:NASA Langley Presentation on LENR Aircraft Study
The control factor of which you speak may well be the production of the sites
where the nuclear reactions take place. The common assumption is that there is
a fixed number of NAE, but this may not be true in all systems. The melt down
of Rossi's reactor speaks against this assumption. Yes, some systems have a fix
count of NAE but others must produce NAE as a dynamic process. This may be the
reason why a NiH reactor melts down; the increase in number of NAE gets out of
control.
If a system with a fixed NAE count, the NAE will just self destruct before
meltdown occurs. Rossi has said that his reactor will stop when the micro
nickel power melts. This looks like that statement cannot be true because the
reaction during melt down goes far beyond the temperature that will destroy
nickel powder.
On Mon, Mar 3, 2014 at 8:56 AM, Jed Rothwell <jedrothw...@gmail.com> wrote:
Alan Fletcher <a...@well.com> wrote:
One interesting concept : since Ni/H LENR might not be throttle-able,
inject a stream of gas (H2?) and Ni nanoparticles into the reactor chamber.
Throttle by modulating the mass content and/or velocity.
Cold fusion produces so much energy per gram of hydrogen I do not think it
is possible to modulate it enough to control the reaction. There are no pumps
or valves that can admit such tiny quantities at a constant rate. It is roughly
10 million times smaller than the delivery of gasoline by a fuel pump.
The other problem is that this method will only work if fraction of
hydrogen that reacts remains remains constant. I doubt that is true. I expect
that if one moment 0.01% of the available hydrogen is consumed, the next moment
it might be 10%. In other words, the presence of hydrogen alone does not
control the consumption rate. Other control factors dominate. The reaction
fluctuates a great deal when there has been no change in the amount of hydrogen
in the cell, and probably not much change in the amount absorbed by the metal.
Unless we can figure what these control factors are, and find ways to "control
the control factors," I do not think cold fusion can be controlled.
The control factors are different for gas loading versus electrolysis. No
doubt the net result is the same, in terms of the special conditions in the
metal (the NAE).
- Jed
