Induced nuclear reactions: processes – systems – and elements – Nuclear fusion
Patent
1994-09-01
1996-01-23
Behrend, Harvey E.
Induced nuclear reactions: processes, systems, and elements
Nuclear fusion
376151, 376101, 376916, 427 5, 427212, 427289, G21B 100
Patent
active
054870941
ABSTRACT:
A pellet carrier disc is movably held between two cooling blocks. The disc is vertically moved, setting its through hole into axial alignment with a first hole of the block. Deuterium gas is supplied into the through hole through the hole, and cooled and solidified, forming a deuterium cylinder. Then, the disc is moved, axially aligning the hole with a second hole of the block. A shaft is thrust into a first end of the deuterium cylinder through the hole, thereby forming a hole in the end of the cylinder. Next, the disc is moved, axially aligning the hole with a third hole of the block. Tritium gas is introduced into the hole of the cylinder through the hole, and cooled and solidified, forming a tritium core. Further, the disc is moved, axially aligning the hole with a fourth hole of the block. A shaft is moved through the hole, causing the second end portion of the deuterium cylinder to project from the hole. The second end portion of the cylinder is cut off. An additional amount of deuterium gas is applied on to the first end of the cylinder, and cooled and solidified, forming a layer covering the tritium core.
REFERENCES:
Fusion, vol. 1, Magnetic Confinement Part B, (1981), Academic Press, N.Y., dited by Edward Teller, p. 457.
Behrend Harvey E.
The Director-General of the National Institute for Fusion Scienc
LandOfFree
Double-layer pellet, method of manufacturing the same, and appar does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Double-layer pellet, method of manufacturing the same, and appar, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Double-layer pellet, method of manufacturing the same, and appar will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-1510244