Recent Progress in Stellarator Reactor Conceptual Design
- 1 July 1985
- journal article
- research article
- Published by Taylor & Francis in Fusion Technology
- Vol. 8 (1P2B) , 1581-1589
- https://doi.org/10.13182/fst85-a39986
Abstract
The Stellarator/Torsatron/Heliotron (S/T/H) class of toroidal magnetic fusion reactor designs continues to offer a distinct and in several ways superior approach to eventual commercial competitiveness. Although no major, integrated conceptual reactor design activity is presently underway, a number of international research efforts suggest avenues for the substantial improvement of the S/T/H reactor embodiment, which derive from recent experimental and theoretical progress and are responsive to current trends in fusion-reactor projection to set the stage for a “third generation” of designs. Recent S/T/H reactor design activity is reviewed and the impact of the changing technical and programmatic context on the direction of future S/T/H reactor design studies is outlined.Keywords
This publication has 13 references indexed in Scilit:
- Monte Carlo studies of transport in stellaratorsPhysics of Fluids, 1985
- Zero-current high-beta stellarator equilibria with rotational transform profile controlNuclear Fusion, 1984
- Reduction of neoclassical transport in the l/ν regime in torsatronsNuclear Fusion, 1984
- Monte-Carlo simulation of neoclassical transport in stellaratorsNuclear Fusion, 1984
- The energy confinement time in stellaratorsNuclear Fusion, 1984
- Progress in Stellarator theoryPlasma Physics and Controlled Fusion, 1984
- Physical and Engineering Constraints for Tokamak Reactors with Helical CoilsNuclear Technology - Fusion, 1983
- A Design Study of a Heliotron Power ReactorNuclear Technology - Fusion, 1983
- Recent Developments in Stellarator PhysicsNuclear Technology - Fusion, 1983
- Design of a helical-axis stellaratorNuclear Fusion, 1983