Parametric fits to 1-D neutron transport calculations for lithium-vanadium fusion power plant blankets in cylindrical and spherical geometries | Zendy

R. W. Petzoldt | Zendy; L.J. Perkins | Zendy

Open Access

Parametric fits to 1-D neutron transport calculations for lithium-vanadium fusion power plant blankets in cylindrical and spherical geometries

Author(s) -

R. W. Petzoldt,

L.J. Perkins

Publication year - 1995

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/114005

Subject(s) - neutron transport , lithium (medication) , nuclear engineering , nuclear physics , fusion power , blanket , neutron , neutron flux , monte carlo method , parametric statistics , physics , materials science , computational physics , plasma , engineering , mathematics , medicine , statistics , composite material , endocrinology

The authors performed 1-D coupled, neutron-gamma transport calculations for lithium-vanadium blankets and lithium-sodium cauldron pot blankets in cylindrical and spherical geometries. Parametric fits to the data are supplied for subsequent use in systems code models. Scaling relationships are given for various neutronics parameters of interest, including: tritium breeding ratio, neutron energy multiplication, magnet dose rates, magnet heating rates, and integrated magnet fluence

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