The use of scaling laws for the design of high beta tokamaks
1987; IOP Publishing; Volume: 27; Issue: 2 Linguagem: Inglês
10.1088/0029-5515/27/2/011
ISSN1741-4326
Autores Tópico(s)Nuclear reactor physics and engineering
ResumoSeveral different empirical scaling laws for the tokamak energy confinement time are used to estimate the auxiliary heating power required for a laboratory experiment capable of testing tokamak confinement at high beta and techniques to access the second stability regime. Since operating experience in the second stability regime does not yet exist, these laws predict a wide range of possible power requirements, especially at large aspect ratios. However, by examining a model DT fusion power reactor with reasonable restrictions on the fusion island weight, neutron loading, and maximum magnetic field of the external coils, only a limited range of operating conditions are found for both first and second regime tokamaks, and only a subset of the scaling laws predict ignition. These particular scaling laws are then used to set confinement goals which if demonstrated by the laboratory experiment would indicate favourable scaling to a reactor.
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