WILDCAT: A Commercial Deuterium-Deuterium Tokamak Reactor

Kenneth Evans, Jr.; Charles C. Baker; Jeffrey N. Brooks; Robert G. Clemmer; David A. Ehst; Patricia A. Finn; Harold Herman; Jungchung Jung; Richard F. Mattas; Balabhadra Misra; Dale L. Smith; Herbert C. Stevens; Larry R. Turner; Robert B. Wehrle; Kevin M. Barry; Albert E. Bolon; Robert T. McGrath; Lester M. Waganer

doi:dx.doi.org/10.13182/FST4-2P1-226

/Create an Account

Home / Publications / Journals / Fusion Science and Technology / Volume 4 / Number 2P1

WILDCAT: A Commercial Deuterium-Deuterium Tokamak Reactor

Kenneth Evans, Jr., Charles C. Baker, Jeffrey N. Brooks, Robert G. Clemmer, David A. Ehst, Patricia A. Finn, Harold Herman, Jungchung Jung, Richard F. Mattas, Balabhadra Misra, Dale L. Smith, Herbert C. Stevens, Larry R. Turner, Robert B. Wehrle, Kevin M. Barry, Albert E. Bolon, Robert T. McGrath, Lester M. Waganer

Fusion Science and Technology / Volume 4 / Number 2P1 / September 1983 / Pages 226-236

Technical Paper / Special Section Content / Fusion Reactor / dx.doi.org/10.13182/FST4-2P1-226

pdf View or Purchase Article

Articles are hosted by Taylor and Francis Online.

WILDCAT is a conceptual design of a catalyzed deuterium-deuterium tokamak commercial fusion reactor. WILDCAT utilizes the beneficial features of no tritium breeding, while not extrapolating unnecessarily from existing deuterium-tritium (D-T) designs. The reactor is larger and has higher magnetic fields and plasma pressures than typical D-T devices. It is more costly, but eliminates problems associated with tritium breeding and has tritium inventories and throughputs approximately two orders of magnitude less than typical D-T reactors. There are both a steady-state version with Alfvén-wave current drive and a pulsed version. Extensive comparison with D-T devices has been made, and cost and safety analyses have been included. All of the major reactor systems have been worked out to a level of detail appropriate to a complete conceptual design.