Molten salt self-cooled solid first wall and blanket design based on advanced ferritic steel

C. P.C. Wong, S. Malang, M. Sawan, I. Sviatoslavsky, E. Mogahed, S. Smolentsev, S. Majumdar, B. Merrill, R. Mattas, M. Friend, J. Bolin, S. Sharafat

Research output: Contribution to journalArticlepeer-review

28 Scopus citations

Abstract

As an element in the U.S. Advanced Power Extraction (APEX) program, the solid first wall and blanket design team assessed innovative design configurations with the use of advanced nano-composite ferritic steel (AFS) as the structural material and FLiBe as the tritium breeder and coolant. The goal for the assessment is to search for designs that can have high volumetric power density and surface heat-flux handling capability, with assurance of fuel self-sufficiency, high thermal efficiency and passive safety for a tokamak power reactor. We selected the re-circulating flow configuration as our reference design. Based on the recommended material properties of AFS we found that the reference design can handle a maximum surface heat flux of 1 MW/m 2, and a maximum neutron wall loading of 5.4 MW/m2, with a gross thermal efficiency of 47%, while meeting all the tritium breeding, structural design and passive safety requirements. This paper will cover the results of the following areas of assessment: material design properties, FW/blanket design configuration, materials compatibility, components fabrication, neutronics analysis, thermal-hydraulics analysis including MHD effects, structural analysis; molten salt and helium closed cycle power conversion system; and safety and waste disposal of the re-circulating coolant first wall and blanket design.

Original languageEnglish
Pages (from-to)245-275
Number of pages31
JournalFusion Engineering and Design
Volume72
Issue number1-3 SPEC. ISS.
DOIs
StatePublished - Nov 2004
Externally publishedYes

Funding

This is a report of work supported by U.S. Department of Energy Contract DE-AC03-98ER54411. The authors would like to acknowledge the recommendations and support provided by Professor Robert Odett of UCSB and Dr. Steve Zinkle of ORNL on the selection of nano-composite ferritic steel as the structural material for our design assessment.

FundersFunder number
U.S. Department of EnergyDE-AC03-98ER54411

    Keywords

    • Advanced ferritic steel
    • Blanket
    • FLiBe
    • First wall
    • Fusion
    • Gas turbine
    • Liquid metal MHD
    • Re-circulation coolant
    • Systems study

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