Analysis of contaminated nuclear plant steel by laser-induced breakdown spectroscopy

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Adam Lang
  • Dirk Engelberg
  • Nicholas T. Smith
  • Divyesh Trivedi
  • Owen Horsfall
  • Anthony Banford
  • Philip A. Martin
  • Paul Coffey
  • William R. Bower
  • Clemens Walther
  • Martin Weiß
  • Hauke Bosco
  • Alex Jenkins
  • Gareth T.W. Law

Organisationseinheiten

Externe Organisationen

  • University of Manchester
  • National Nuclear Laboratory
  • Sellafield Ltd
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)114-122
Seitenumfang9
FachzeitschriftJournal of hazardous materials
Jahrgang345
PublikationsstatusVeröffentlicht - 7 Nov. 2017

Abstract

Laser Induced Breakdown Spectroscopy (LIBS) has the potential to allow direct, standoff measurement of contaminants on nuclear plant. Here, LIBS is evaluated as an analytical tool for measurement of Sr and Cs contamination on type 304 stainless steel surfaces. Samples were reacted in model acidic (PUREX reprocessing) and alkaline (spent fuel ponds) Sr and Cs bearing liquors, with LIBS multi-pulse ablation also explored to measure contaminant penetration. The Sr II (407.77 nm) and Cs I (894.35 nm) emission lines could be separated from the bulk emission spectra, though only Sr could be reliably detected at surface loadings >0.5 mg cm−2. Depth profiling showed decay of the Sr signal with time, but importantly, elemental analysis indicated that material expelled from LIBS craters is redistributed and may interfere in later laser shot analyses.

ASJC Scopus Sachgebiete

Zitieren

Analysis of contaminated nuclear plant steel by laser-induced breakdown spectroscopy. / Lang, Adam; Engelberg, Dirk; Smith, Nicholas T. et al.
in: Journal of hazardous materials, Jahrgang 345, 07.11.2017, S. 114-122.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Lang, A, Engelberg, D, Smith, NT, Trivedi, D, Horsfall, O, Banford, A, Martin, PA, Coffey, P, Bower, WR, Walther, C, Weiß, M, Bosco, H, Jenkins, A & Law, GTW 2017, 'Analysis of contaminated nuclear plant steel by laser-induced breakdown spectroscopy', Journal of hazardous materials, Jg. 345, S. 114-122. https://doi.org/10.1016/j.jhazmat.2017.10.064
Lang, A., Engelberg, D., Smith, N. T., Trivedi, D., Horsfall, O., Banford, A., Martin, P. A., Coffey, P., Bower, W. R., Walther, C., Weiß, M., Bosco, H., Jenkins, A., & Law, G. T. W. (2017). Analysis of contaminated nuclear plant steel by laser-induced breakdown spectroscopy. Journal of hazardous materials, 345, 114-122. https://doi.org/10.1016/j.jhazmat.2017.10.064
Lang A, Engelberg D, Smith NT, Trivedi D, Horsfall O, Banford A et al. Analysis of contaminated nuclear plant steel by laser-induced breakdown spectroscopy. Journal of hazardous materials. 2017 Nov 7;345:114-122. doi: 10.1016/j.jhazmat.2017.10.064
Lang, Adam ; Engelberg, Dirk ; Smith, Nicholas T. et al. / Analysis of contaminated nuclear plant steel by laser-induced breakdown spectroscopy. in: Journal of hazardous materials. 2017 ; Jahrgang 345. S. 114-122.
Download
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abstract = "Laser Induced Breakdown Spectroscopy (LIBS) has the potential to allow direct, standoff measurement of contaminants on nuclear plant. Here, LIBS is evaluated as an analytical tool for measurement of Sr and Cs contamination on type 304 stainless steel surfaces. Samples were reacted in model acidic (PUREX reprocessing) and alkaline (spent fuel ponds) Sr and Cs bearing liquors, with LIBS multi-pulse ablation also explored to measure contaminant penetration. The Sr II (407.77 nm) and Cs I (894.35 nm) emission lines could be separated from the bulk emission spectra, though only Sr could be reliably detected at surface loadings >0.5 mg cm−2. Depth profiling showed decay of the Sr signal with time, but importantly, elemental analysis indicated that material expelled from LIBS craters is redistributed and may interfere in later laser shot analyses.",
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T1 - Analysis of contaminated nuclear plant steel by laser-induced breakdown spectroscopy

AU - Lang, Adam

AU - Engelberg, Dirk

AU - Smith, Nicholas T.

AU - Trivedi, Divyesh

AU - Horsfall, Owen

AU - Banford, Anthony

AU - Martin, Philip A.

AU - Coffey, Paul

AU - Bower, William R.

AU - Walther, Clemens

AU - Weiß, Martin

AU - Bosco, Hauke

AU - Jenkins, Alex

AU - Law, Gareth T.W.

N1 - Funding information: This work was supported by the Sellafield Ltd . Decontamination and Effluents Centre of Expertise and the RCUK grants ST/N002474/1 and NE/M014088/1 . Smith is funded by a Royal Society Industry Fellowship , and Banford, Horsfall, Smith and Trivedi acknowledge support from NNL’s Waste Management and Decommissioning IR&D Programme .

PY - 2017/11/7

Y1 - 2017/11/7

N2 - Laser Induced Breakdown Spectroscopy (LIBS) has the potential to allow direct, standoff measurement of contaminants on nuclear plant. Here, LIBS is evaluated as an analytical tool for measurement of Sr and Cs contamination on type 304 stainless steel surfaces. Samples were reacted in model acidic (PUREX reprocessing) and alkaline (spent fuel ponds) Sr and Cs bearing liquors, with LIBS multi-pulse ablation also explored to measure contaminant penetration. The Sr II (407.77 nm) and Cs I (894.35 nm) emission lines could be separated from the bulk emission spectra, though only Sr could be reliably detected at surface loadings >0.5 mg cm−2. Depth profiling showed decay of the Sr signal with time, but importantly, elemental analysis indicated that material expelled from LIBS craters is redistributed and may interfere in later laser shot analyses.

AB - Laser Induced Breakdown Spectroscopy (LIBS) has the potential to allow direct, standoff measurement of contaminants on nuclear plant. Here, LIBS is evaluated as an analytical tool for measurement of Sr and Cs contamination on type 304 stainless steel surfaces. Samples were reacted in model acidic (PUREX reprocessing) and alkaline (spent fuel ponds) Sr and Cs bearing liquors, with LIBS multi-pulse ablation also explored to measure contaminant penetration. The Sr II (407.77 nm) and Cs I (894.35 nm) emission lines could be separated from the bulk emission spectra, though only Sr could be reliably detected at surface loadings >0.5 mg cm−2. Depth profiling showed decay of the Sr signal with time, but importantly, elemental analysis indicated that material expelled from LIBS craters is redistributed and may interfere in later laser shot analyses.

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KW - Contaminated stainless steel

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