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DOE Nuclear Energy Launch Pad “extends and expands” pilot programs
The Department of Energy is set to expand on its Reactor Pilot Program and Fuel Line Pilot Program by introducing the Nuclear Energy Launch Pad, a DOE-led program to integrate the authorization, testing, and operation of reactors and fuel facilities from private nuclear developers. Furthermore, it will include two pathways—Launch Pad INL and Launch Pad USA—with options to access Idaho National Laboratory land or other sites around the nation.
The DOE plans to transition future pilot program applicants to the new Launch Pad model. Application requirements and review criteria will mirror those used in the reactor and fuel line pilot programs, and projects already in those programs will transition to Launch Pad with no need to reapply.
Hiromu Momota, Akio Ishida, Yasuji Kohzaki, George H. Miley, Shoichi Ohi, Masami Ohnishi, Kunihiro Sato, Loren C. Steinhauer, Yukihiro Tomita, Michel Tuszewski
Fusion Science and Technology | Volume 21 | Number 4 | July 1992 | Pages 2307-2323
Technical Paper | Special Issue on D-He Fusion / D-3He/Fusion Reactor | doi.org/10.13182/FST92-A29724
Articles are hosted by Taylor and Francis Online.
A comprehensive design study of the D-3He-fueled field-reversed configuration (FRC) reactor Artemis is carried out for the purpose of proving its attractive characteristics and clarifying the critical issues for a commercial fusion reactor. The FRC burning plasma is stabilized and sustained in a steady equilibrium by means of preferential trapping of D-3He fusion-produced energetic protons. A novel direct energy converter for 15-MeV protons is also presented. On the bases of consistent fusion plasma production and simple engineering, a compact and simple reactor concept is presented. The D-3He FRC power plant offers a most attractive prospect for energy development. It is environmentally acceptable in terms of radioactivity and fuel resources, and the estimated cost of electricity is low compared with a light water reactor. Critical physics and engineering issues in the development of the D-3He FRC reactor are clarified.
