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Laser separation of uranium chosen for scaleup. [Atomic vapor laser isotope separation, molecular laser isotope separation plasma separation process]

Journal Article · · Chem. Eng. News; (United States)

Atomic vapor laser isotope separation (AVLIS) has been selected by the Department of Energy to go into large-scale engineering development and demonstration over two other advanced technologies, molecular laser isotope separation and plasma separation. DOE will continue to support development of another uranium enrichment technology, gas centrifugation. By or around 1990, the most promising gas centrifuge technique will be compared to the further developed AVLIS process, and a selection will be made between the two to replace the current technology, gaseous diffusion. The AVLIS process, plasma separation, and molecular laser isotope separation use the selective absorption of radiation of a particular energy level by the /sup 235/U isotope. The plasma separation process selectively energizes /sup 235/U by ion cyclotron resonance. The AVLIS and molecular laser isotope separation processes both use a carefully tuned laser to excite /sup 235/U isotope selectively. In the AVLIS process, uranium metal feed material is melted and vaporized to from an atomic uranium vapor stream. When this vapor stream passes through the beam of copper vapor lasers, the /sup 235/U atoms absorb the light and become ionized. These ionized atoms are collected by electromagnetic fields while the neutral /sup 238/U atoms pass through the magnetic field and are collected as tailings. The AVLIS process has the potential for significantly reducing the cost of enriching uranium. The status of development, cost, advantages and drawbacks of the five processes (gaseous diffusion, gas centrifugation, AVLIS, molecular laser separation, plasma separation) are discussed. (ATT)

OSTI ID:
5487549
Journal Information:
Chem. Eng. News; (United States), Journal Name: Chem. Eng. News; (United States) Vol. 60:20; ISSN CENEA
Country of Publication:
United States
Language:
English

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Related Subjects

050503* -- Nuclear Fuels-- Uranium Enrichment-- Laser Excitation-- (-1989)
11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS
ACTINIDE ISOTOPES
ACTINIDE NUCLEI
ALPHA DECAY RADIOISOTOPES
CENTRIFUGATION
COMPARATIVE EVALUATIONS
COST
EVEN-ODD NUCLEI
GAS CENTRIFUGATION
GASEOUS DIFFUSION PROCESS
HEAVY NUCLEI
ISOMERIC TRANSITION ISOTOPES
ISOTOPE SEPARATION
ISOTOPES
LASER ISOTOPE SEPARATION
MINUTES LIVING RADIOISOTOPES
NORTH AMERICA
NUCLEI
PLASMA
RADIOISOTOPES
SEPARATION PROCESSES
URANIUM 235
URANIUM ISOTOPES
USA
YEARS LIVING RADIOISOTOPES