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Axisymmetric Tandem Mirror Magnetic Fusion Energy Power Plant with Thick Liquid-Walls

Moir, R W ; Rognlien, T D

United States 2006

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Título:
Axisymmetric Tandem Mirror Magnetic Fusion Energy Power Plant with Thick Liquid-Walls
Autor: Moir, R W ; Rognlien, T D
Assuntos: 01 COAL, LIGNITE, AND PEAT ; 70 PLASMA PHYSICS AND FUSION TECHNOLOGY ; ATOMIC AND MOLECULAR PHYSICS ; BREEDING ; BREMSSTRAHLUNG ; COAL ; CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY ; CONFIGURATION ; DILUTION ; EVAPORATION ; FISSION ; FLUORINE ; GENERAL STUDIES OF NUCLEAR REACTORS ; GEOMETRY ; LITHIUM ; MOLTEN SALTS ; NEUTRONS ; POWER DENSITY ; POWER PLANTS ; TANDEM MIRRORS ; THERMONUCLEAR REACTORS ; TRITIUM ; VAPOR PRESSURE
Notas: USDOE
W-7405-ENG-48
UCRL-CONF-220919
Descrição: A fusion power plant is described that utilizes a new version of the tandem mirror device including spinning liquid walls. The magnetic configuration is evaluated with an axisymmetric equilibrium code predicting an average beta of 60%. The geometry allows a flowing molten salt, (flibe-Li{sub 2}BeF{sub 4}), which protects the walls and structures from damage arising from neutrons and plasma particles. The free surface between the liquid and the burning plasma is heated by bremsstrahlung radiation, line radiation, and by neutrons. The temperature of the free surface of the liquid is calculated, and then the evaporation rate is estimated from vapor-pressure data. The allowed impurity concentration in the burning plasma is taken as 1% fluorine, which gives a 17% reduction in the fusion power owing to D/T fuel dilution, with F line-radiation causing minor power degradation. The end leakage power density of 0.6 MW/m{sup 2} is readily handled by liquid jets. The tritium breeding is adequate with natural lithium. A number of problem areas are identified that need further study to make the design more self-consistent and workable; however, the simple geometry and the use of liquid walls promise the cost of power competitive with that from fission and coal.
Editor: United States
Data de criação/publicação: 2006
Idioma: Inglês

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Axisymmetric Tandem Mirror Magnetic Fusion Energy Power Plant with Thick Liquid-Walls

Moir, R W ; Rognlien, T D

United States 2006

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