Abstract
Within the magnetic fusion energy program in the US, a program called APEX is investigating the use of free flowing liquid surfaces to form the inner surface of the chamber around the plasma. As part of this work, the APEX Team has investigated several possible design implementations and developed a specific engineering concept for a fusion reactor with liquid walls. Our approach has been to utilize an already established design for a future fusion reactor, the ARIES-RS, for the basic chamber geometry and magnetic configuration, and to replace the chamber technology in this design with liquid wall technology for a first wall and divertor and a blanket with adequate tritium breeding. This paper gives an overview of one design with a molten salt (a mixture of lithium, beryllium and sodium fluorides) forming the liquid surfaces and a ferritic steel for the structural material of the blanket. The design point is a reactor with 3840 MW of fusion power of which 767 MW is in the form of energetic particles (alpha power) and 3073 MW is in the form of neutrons. The alpha plus auxiliary power total 909 MW of which 430 MW is radiated from the core mostly onto the first wall and the balance flows into the edge plasma and is distributed between the first wall and the divertor. In pursuing the application of liquid surfaces in APEX, the team has developed analytical tools that are significant achievements themselves and also pursued experiments on flowing liquids. This work is covered elsewhere, but the paper will also note several such areas to indicate the supporting science behind the design presented. Significant new work in modeling the plasma edge to understand the interaction of the plasma with the liquid walls is one example. Another is the incorporation of magneto-hydrodynamic (MHD) effects in fluid modeling and heat transfer.
Original language | English |
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Pages (from-to) | 181-221 |
Number of pages | 41 |
Journal | Fusion Engineering and Design |
Volume | 72 |
Issue number | 1-3 SPEC. ISS. |
DOIs | |
State | Published - Nov 2004 |
Externally published | Yes |
Funding
This work is the result of effort by the APEX Team. The work of two authors (TDR and MER) was performed under the auspices of the U.S. Department of Energy by contractW-7405-Eng-48 at the University of California Lawrence Livermore National Laboratory. The primary contributors are listed as authors but the design effort has been presented in APEX Meetings with helpful discussions by the entire APEX Team and the Director of APEX, Prof. Mohamed Abdou. The APEX Team and more information about the APEX Study is given on the APEX website http://www.fusion.ucla.edu/APEX/ . The authors also wish to express their appreciation to the Office of Fusion Energy Science of the Department of Energy and to the DOE Manager of the APEX Study, Sam Berk for supporting this work.
Funders | Funder number |
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U.S. Department of Energy |
Keywords
- APEX
- Alpha power
- Magneto-hydrodynamic effects