Safety and Environmental Characteristics of Recent D-<sup>3</sup>He and DT Tokamak Power Reactors

G. L. Kulcinski; J. P. Blanchard; G. A. Emmert; L. A. El-Guebaly; H. Khater; C. W. Maynard; E. A. Mogahed; J. E Santarius; M. E. Sawan; I. N. Sviatoslavsky; L. J. Wittenberg

doi:dx.doi.org/10.13182/FST92-A29978

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Safety and Environmental Characteristics of Recent D-³He and DT Tokamak Power Reactors

G. L. Kulcinski, J. P. Blanchard, G. A. Emmert, L. A. El-Guebaly, H. Khater, C. W. Maynard, E. A. Mogahed, J. E Santarius, M. E. Sawan, I. N. Sviatoslavsky, L. J. Wittenberg

Fusion Science and Technology / Volume 21 / Number 3P2B / May 1992 / Pages 1779-1783

Alternate Concept and Application / dx.doi.org/10.13182/FST92-A29978

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A comparison of the key features of the D-³He Apollo and the DT Aries fusion power reactor designs is made. The reduction in neutron production from the D-³He reaction has a major effect on the performance of Tokamak reactors. One of the biggest impacts is the low radiation damage rate in D-³He systems which allows a permanent first wall to be utilized.. The reduction in radioactivity in D-³He reactors has a particularly advantageous effect on the storage of wastes as well as on the safety to the public in the event of the worst conceivable accident. The more difficult D-³He physics requirements are offset by the technological advantages of using this fuel in place of the DT cycle.

Safety and Environmental Characteristics of Recent D-3He and DT Tokamak Power Reactors

Safety and Environmental Characteristics of Recent D-³He and DT Tokamak Power Reactors