Title :
Development of a cost-effective design for the Fusion Ignition Research Experiment
Author :
Heitzenroeder, Philip J.
Author_Institution :
Plasma Phys. Lab., Princeton Univ., NJ, USA
Abstract :
The Fusion Ignition Research Experiment (FIRE) is one of the components of a US Next Step Options (NSO) study which is considering what major experiments might be undertaken in a restructured US Fusion Sciences Program. FIRE is designed for a plasma current of ~6.5 MA, a burn time of at least 10 s, and a Q in the range of 5 to 10. FIRE has a major radius of 2.0 m, a minor radius of 0.525 m, and a field on axis of 10 T. All of the coils are inertially cooled by liquid nitrogen. FIRE will operate primarily in a double null configuration with an x-point triangularity of 0.8 and an x-point elongation of 2.2. In addition to these technical requirements, a major goal for the FIRE project is for a total project cost of approximately Å (in FY 99 dollars). This paper describes the process and rationale for the engineering design chosen for FIRE, taking into account both the performance and cost goals
Keywords :
Tokamak devices; fusion reactor design; FIRE; Fusion Ignition Research Experiment; burn time; cost-effective design; design; double null configuration; engineering design; x-point elongation; x-point triangularity; Coils; Costs; Design engineering; Fires; Ignition; Laboratories; Nitrogen; Nuclear and plasma sciences; Physics; Tokamaks;
Conference_Titel :
Fusion Engineering, 1999. 18th Symposium on
Conference_Location :
Albuquerque, NM
Print_ISBN :
0-7803-5829-5
DOI :
10.1109/FUSION.1999.849875
