On Jul 9, 3:14*pm, Brad Guth wrote:
On Jul 9, 11:15*am, bert wrote:
I have the best Pulse Fusion Machine. It works on ":internal
confinement" It uses 3 powerfull lasers to create a part of the Sun. I
know how large(rather tiny) the hydrogen rich pellots should be.
(lithium deuteride). With my knowledge that I used for my fastest
pictures I can for a breaf second bring the temperature up to 100
million degrees centergrad. *Thus fusing hydrogen nucluie into helium
I would stay to see every thing is done step by step. Its very
costly,but once done the energy would be the cheapest ever. *We have a
father for the H-bomb *I want to be the father of the "Fusion
Machine" * *TreBert PS once in operation I want 10 million to see the
world with
Get Double-A and those seans to help before it's too late. *EvenWilliamMookcould help if he wanted to, but then you'd have to do
everything his way.
We are aware that in small scale prototypes there has already been
good fusion results using Helium-3 and Deuterium. *Making energy via
fusion on a larger scale seems to have been problematic and spendy.
At least thus far, nothing of any size has accomplished a Q=1/
breakeven, and ITER seems almost hopelessly over-funded, under
motivated and regulated to death. *Even our NIF is a lost cause, at
least up until oil hits $1000/barrel and coal at $500/tonne.
*~ BG
In nuclear fusion research, the Lawson criterion, first derived by
John D. Lawson in 1955 defines the conditions needed for a fusion
reactor to reach ignition. The plasma is heated by the products of
the fusion reactions at a rate sufficient to maintain the temperature
of the plasma against all losses without external power input.
http://upload.wikimedia.org/wikipedi...on_rxnrate.svg
The fusion reaction rate increases rapidly with temperature until it
gradually drops off. The DT rate peaks at a lower temperature and at a
higher value than other reactions, including He-3.
So Deuterium and Tritium have the lowest temperature and pressure
needed to achieve thernonuclear break-even - and that temperature and
pressure is far less than that needed by any nuclear reaction
involving Helium 3.
Finally, NO thernonuclear reaction system has achieved sustained break-
even to the point of being commercially viable.
http://images.iop.org/objects/phw/wo...fus6_03-06.jpg