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mercredi 2 février 2011

containmemt of magma for nuclear fusion


Magma for
nuclear fusion
must have a
minimum volme
and a surface, i
try the following
formula:
(Volume)/
(surface)> 1,
This leads to a spherical magma (as the experimental reactor of the National ignition Facility in California):
radius R > 3,
and for a cylindrical magma (eg, Z-Machine and ITER torus):
R > 2,
magma cylindrica torus of international experimental reactor satisfies the condition
R > 2 meters, then we have R in meters for my equations above.
I notice that the experimental reactor of the National Ignition Faciity in California was
spherical and it made me think of the spherical shape of some foundry furnace, designed to
concentrate the heat at its center, then it would be easily exploitable for a model
Z-Machine;
it is sufficient that there is a good long oscillating electric arc between two iron rods which
woul be cooled by a stream of hydrogen at high pressure, the electric arc ionize a
hydrogen atmosphere during its passage, making the driver Hydrogen for the passage f
current, then a system will suck the hydrogen out of the cylinder to heat the water, then
once sufficienly cooled, the hydrogen would be reintroduced in a jet that would cool the ion
rods inside.
Here the heat is reflected off the polished ceramic and concentrates towards the center.
Here is a cons-hema representing this kind model Z-Machine:
First Discussion( in french language):

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