The most clever scheme for powering pacemakers I have heard of is to power
them with oxygen and carbon from the bloodstream. Like small, artificial
organs. I do not know where that project is but it seems like a neat idea.
The power lasts as long as the person does.
There are some other schemes to
OK, so it behaves more like a photoelectric cell. I was under the impression
that it was supposed to be highly efficient in converting the beta energy into
electricity. If it is very inefficient then a lot of heat is going to have to
be exhausted. That is a significant disadvantage when compared
Actually, the output voltage is the voltage of the semiconductor junction.
The beta particle stimulates multiple hole-electron pairs across this
junction. This type of beta voltaic battery is extremely inefficient in
converting the energy in the beta particles into output electrical energy.
On Tu
http://egooutpeters.blogspot.ro/2016/11/nov-29-2016-lenr-in-earth-info.html
peter
--
Dr. Peter Gluck
Cluj, Romania
http://egooutpeters.blogspot.com
David Roberson wrote:
> Of course, if it costs a fortune to manufacture that would not be true.
>
Synthetic diamonds for industrial apps are fairly cheap. The gem quality
ones cost $6,000 per carat (0.2 g) which is a lot. I do not know which you
would need. However, medical use batteries are ul
Much depends upon the terminal voltage that you must convert into a useful
value. My suspicion is that the open circuited voltage is very high, making it
difficult to use in simple applications.
Dave
-Original Message-
From: Jed Rothwell
To: vortex-l
Sent: Tue, Nov 29, 2016 10
If Brown were able to get large currents at a modest voltage, he would be onto
a very valuable produce. Of course, if it costs a fortune to manufacture that
would not be true.
Dave
-Original Message-
From: Chris Zell
To: vortex-l
Sent: Mon, Nov 28, 2016 3:09 pm
Subject: RE: [
I did not see a reference to the open circuit voltage or short circuit current
obtained during these tests. Has anyone found a reference? Also, where are the
electrical terminals?
Dave
-Original Message-
From: Jack Cole
To: vortex-l
Sent: Mon, Nov 28, 2016 11:11 am
Subject: [
wrote:
> The device being made from by-produce materials from reactor ops would be
> subject to regulation by the NRC.
>
This should not be a problem. It would be like a smoke detector with Am-241.
Sent from Mail for Windows 10
From: bobcook39...@gmail.com
Sent: Monday, November 28, 2016 2:37 PM
To: Brian Ahern
Subject: RE: [Vo]:Article: Diamonds turn nuclear waste into nuclear batteries
Each nano diamond would have a small resistance from the beta generation
locations to the surface of
I know how industrial diamond and DLC are made and the rates that are
reasonable. I don't know where the 4mW/g electrical came from for 14C
(perhaps that is the energy output of the 14C), but I believe you would be
doing well to achieve about 40 microwatts per gram. Keep in mind that a
gram of di
With the recent information from Italy (Giuseppe, Navarro and Coppi) reported
on Rossi’s blog; the information from LENR Forum about Gates interaction with
La Gatta (apparently in Padua, It during the ICCF-19); Texas Tech interaction
with La Gatta’s firm in Italy; La Gatta’s interaction with I
wrote:
The maximum power output of such a battery would be about 4 mW / gm of C14.
> (That's milli-watt, not Megawatt, which means you would be looking at a
> very low
> acceleration rate.
>
A hearing aid battery produces less than 1 mW. A pacemaker produces about
10 mW. So ~4 mW power levels wo
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