ISSN 0253-2778

CN 34-1054/N

open
Free to Publish. Free to Read.
Open AccessOpen Access JUSTC Original Paper

Influence of the spallation production to the proton tube of ADS

  • School of Nuclear Science and Technology, University of Science and Technology of China, Hefei 230027, China

Cite this:
https://doi.org/10.3969/j.issn.0253-2778.2014.12.009
  • Received Date: 13 March 2014
  • Accepted Date: 25 May 2014
  • Rev Recd Date: 25 May 2014
  • Publish Date: 30 December 2014
    Abstract

  • Abstract

    A spallation target and a proton accelerator were needed for an accelerator driven sub-critical system (ADS) to provide continual neutron sources for the blanket. For the windowed target, light nuclides easily permeate the interface of the proton tube and target. The influence of light spallation productions on the vacuum of the proton tube was analysed. First software was used to simulate the spallation production yields, then, in combined the permeation and flow conductance calculation, pressure in the proton tube was obtained. At last, parameters of PDS-XADS were partly used to give a numerical result to get a visual impression.

    Abstract

    A spallation target and a proton accelerator were needed for an accelerator driven sub-critical system (ADS) to provide continual neutron sources for the blanket. For the windowed target, light nuclides easily permeate the interface of the proton tube and target. The influence of light spallation productions on the vacuum of the proton tube was analysed. First software was used to simulate the spallation production yields, then, in combined the permeation and flow conductance calculation, pressure in the proton tube was obtained. At last, parameters of PDS-XADS were partly used to give a numerical result to get a visual impression.
    • FullText(HTML)
  • loading
    • References(9)
  • [1]
    Rubbia C, Rubio J A, Buono S, et al. Conceptual design of a fast neutron operated high power energy amplifier[R]. Geneva: CERN, 1995: CERN/AT/95-44 (ET).
    [2]
    Fokau A, Zhang Y, Ishida S, et al. A source efficient ADS for minor actinides burning[J]. Annals of Nuclear Energy, 2010, 37(4): 540-545.
    [3]
    Maes D. Design of the small-scale experimental ADS: MYRRHA[C]//Design of the small-scale experimental ADS: MYRRHA, Brussel, 1999.
    [4]
    Sordo F, Abánades A, Lafuente A, et al. Material selection for spallation neutron source windows: Application to PDS-XADS and XT-ADS prototypes[J]. Nuclear Engineering and Design, 2009, 239(11): 2 573-2 580.
    [5]
    Michelato P, Cavaliere E, Pagani C, et al. Vacuum interface analysis of a windowless spallation target for accelerator-driven systems[J]. Nuclear Science and Engineering, 2007, 157(1): 95-109.
    [6]
    Ferrari A, Sala P R, Fasso A, et al. FLUKA: A multi-particle transport code[R]. Geneva: CERN,2005, CERN-2005-10.
    [7]
    山常起,吕延晓. 氚及防氚渗透材料[M]. 北京:原子能出版社,2005.
    [8]
    王佩璇,宋家树. 材料中的氦及氚渗透[M].北京:国防工业出版社,2002.
    [9]
    Michel-Sendis F, Chabod S, Letourneau A, et al. Neutronic performance of the MEGAPIE spallation target under high power proton beam[J]. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions With Materials and Atoms, 2010, 268(13): 2 257-2 271.
    • Supplements(0)
    • Related Articles
    • Track Citations
  • 加载中

Catalog

    |
    Get Citation
    PDF
    XML
    [1]
    Rubbia C, Rubio J A, Buono S, et al. Conceptual design of a fast neutron operated high power energy amplifier[R]. Geneva: CERN, 1995: CERN/AT/95-44 (ET).
    [2]
    Fokau A, Zhang Y, Ishida S, et al. A source efficient ADS for minor actinides burning[J]. Annals of Nuclear Energy, 2010, 37(4): 540-545.
    [3]
    Maes D. Design of the small-scale experimental ADS: MYRRHA[C]//Design of the small-scale experimental ADS: MYRRHA, Brussel, 1999.
    [4]
    Sordo F, Abánades A, Lafuente A, et al. Material selection for spallation neutron source windows: Application to PDS-XADS and XT-ADS prototypes[J]. Nuclear Engineering and Design, 2009, 239(11): 2 573-2 580.
    [5]
    Michelato P, Cavaliere E, Pagani C, et al. Vacuum interface analysis of a windowless spallation target for accelerator-driven systems[J]. Nuclear Science and Engineering, 2007, 157(1): 95-109.
    [6]
    Ferrari A, Sala P R, Fasso A, et al. FLUKA: A multi-particle transport code[R]. Geneva: CERN,2005, CERN-2005-10.
    [7]
    山常起,吕延晓. 氚及防氚渗透材料[M]. 北京:原子能出版社,2005.
    [8]
    王佩璇,宋家树. 材料中的氦及氚渗透[M].北京:国防工业出版社,2002.
    [9]
    Michel-Sendis F, Chabod S, Letourneau A, et al. Neutronic performance of the MEGAPIE spallation target under high power proton beam[J]. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions With Materials and Atoms, 2010, 268(13): 2 257-2 271.
    Recommended articles
    TrendMD
    Volume 44 Issue 12 page: 1014-1018
    Cover

    Article Metrics

    Article views (20) PDF downloads(68)
    Proportional views

    Copyright © Editorial Office of JUSTC, All Rights Reserved. 皖ICP备05002528号

    Supported by: Beijing Renhe Information Technology Co. Ltd  

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return