Relative Merits of Size, Field, and Current on Ignited Tokamak Performance
1988; American Nuclear Society; Volume: 14; Issue: 2P1 Linguagem: Inglês
10.13182/fst88-a20263
ISSN0748-1896
Autores Tópico(s)Nuclear reactor physics and engineering
ResumoA simple global analysis is developed to examine the relative merits of size (L = a or R0), field (B0), and current (I) on ignition regimes of tokamaks under various confinement scaling laws. Scalings of key parameters (nτE, β, Paux, Pfus, etc.) with L, B0, and I are presented at several operating points, including (a) optimal path to ignition (saddle point), (b) ignition at minimum beta, (c) ignition at 10 keV, and (d) maximum performance at the limits of density (nmax ∼ B0/R0) and beta (βcrit ∼ I/aB0). Expressions for the saddle point and the minimum conditions needed for ohmic ignition are derived analytically for any confinement model of the form τE ∼ nxTy. For a wide range of confinement models, the “figure of merit” parameters and I are found to give a good indication of the relative performance of the devices, where q* is the cylindrical safety factor. As an illustration, the results are applied to representative “CITs” (a class of compact, high-field ignition tokamaks) and “Super-JETs” [a class of large-size (few × JET), low-field, high-current (≳20-MA) devices].
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