Applicability of a 100-mL Polyethylene Vial for Low-Level Tritium Measurement Using a Low-Background Liquid Scintillation Counter

Yoshinari Oshimi; Mayu Ohki; Misato Nagano; Takuyo Yasumatsu; Masanori Hara; Satoshi Akamaru; Masato Nakayama; Miki Shoji

doi:10.1080/15361055.2020.1729294

Applicability of a 100-mL Polyethylene Vial for Low-Level Tritium Measurement Using a Low-Background Liquid Scintillation Counter

Yoshinari Oshimi, Mayu Ohki, Misato Nagano, Takuyo Yasumatsu^*, Masanori Hara, Satoshi Akamaru, Masato Nakayama, Miki Shoji

^*Corresponding author for this work

Hydrogen Isotope Research Center, Organization for Promotion of Research

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

For low-level tritium measurements using a liquid scintillation counter, scintillation vial selection is important. The applicability of polyethylene (PE) vials was studied. Three types of vials were tested: (1) 100-mL perfluoroalkoxy alkane (PFA) fluorine resin vials, (2) 100-mL PE vials, and (3) 145-mL PE vials. Ultima Gold LLT was the reference liquid scintillator in this study. The background counts for these vials were found to be 2.5 counts per minute. Tritiated water of 1.5 Bq‧mL⁻¹ was employed as an internal standard to determine the counting efficiency. The counting efficiencies for the 100-mL PFA, 100-mL PE, and 145-mL PE vials were estimated to be 17%, 16%, and 13%, respectively. The lower limits of detection of these vials for a counting time of 100 min were 1.45 Bq‧L⁻¹ for 100-mL PFA vials, 1.54 Bq‧L⁻¹ for 100-mL PE vials, and 1.47 Bq‧L⁻¹ for 145-mL PE vials. Thus, these vials demonstrate similar performances for tritium measurements.

Original language	English
Pages (from-to)	583-588
Number of pages	6
Journal	Fusion Science and Technology
Volume	76
Issue number	4
DOIs	https://doi.org/10.1080/15361055.2020.1729294
State	Published - 2020/05/18

Keywords

100-mL vial
Liquid scintillation counter
counting efficiency
lower limits of detection
tritium measurement

ASJC Scopus subject areas

Civil and Structural Engineering
Nuclear and High Energy Physics
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

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10.1080/15361055.2020.1729294

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title = "Applicability of a 100-mL Polyethylene Vial for Low-Level Tritium Measurement Using a Low-Background Liquid Scintillation Counter",

abstract = "For low-level tritium measurements using a liquid scintillation counter, scintillation vial selection is important. The applicability of polyethylene (PE) vials was studied. Three types of vials were tested: (1) 100-mL perfluoroalkoxy alkane (PFA) fluorine resin vials, (2) 100-mL PE vials, and (3) 145-mL PE vials. Ultima Gold LLT was the reference liquid scintillator in this study. The background counts for these vials were found to be 2.5 counts per minute. Tritiated water of 1.5 Bq‧mL−1 was employed as an internal standard to determine the counting efficiency. The counting efficiencies for the 100-mL PFA, 100-mL PE, and 145-mL PE vials were estimated to be 17%, 16%, and 13%, respectively. The lower limits of detection of these vials for a counting time of 100 min were 1.45 Bq‧L−1 for 100-mL PFA vials, 1.54 Bq‧L−1 for 100-mL PE vials, and 1.47 Bq‧L−1 for 145-mL PE vials. Thus, these vials demonstrate similar performances for tritium measurements.",

keywords = "100-mL vial, Liquid scintillation counter, counting efficiency, lower limits of detection, tritium measurement",

author = "Yoshinari Oshimi and Mayu Ohki and Misato Nagano and Takuyo Yasumatsu and Masanori Hara and Satoshi Akamaru and Masato Nakayama and Miki Shoji",

note = "Publisher Copyright: {\textcopyright} 2020, {\textcopyright} 2020 American Nuclear Society.",

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T1 - Applicability of a 100-mL Polyethylene Vial for Low-Level Tritium Measurement Using a Low-Background Liquid Scintillation Counter

AU - Oshimi, Yoshinari

AU - Ohki, Mayu

AU - Nagano, Misato

AU - Yasumatsu, Takuyo

AU - Hara, Masanori

AU - Akamaru, Satoshi

AU - Nakayama, Masato

AU - Shoji, Miki

PY - 2020/5/18

Y1 - 2020/5/18

N2 - For low-level tritium measurements using a liquid scintillation counter, scintillation vial selection is important. The applicability of polyethylene (PE) vials was studied. Three types of vials were tested: (1) 100-mL perfluoroalkoxy alkane (PFA) fluorine resin vials, (2) 100-mL PE vials, and (3) 145-mL PE vials. Ultima Gold LLT was the reference liquid scintillator in this study. The background counts for these vials were found to be 2.5 counts per minute. Tritiated water of 1.5 Bq‧mL−1 was employed as an internal standard to determine the counting efficiency. The counting efficiencies for the 100-mL PFA, 100-mL PE, and 145-mL PE vials were estimated to be 17%, 16%, and 13%, respectively. The lower limits of detection of these vials for a counting time of 100 min were 1.45 Bq‧L−1 for 100-mL PFA vials, 1.54 Bq‧L−1 for 100-mL PE vials, and 1.47 Bq‧L−1 for 145-mL PE vials. Thus, these vials demonstrate similar performances for tritium measurements.

AB - For low-level tritium measurements using a liquid scintillation counter, scintillation vial selection is important. The applicability of polyethylene (PE) vials was studied. Three types of vials were tested: (1) 100-mL perfluoroalkoxy alkane (PFA) fluorine resin vials, (2) 100-mL PE vials, and (3) 145-mL PE vials. Ultima Gold LLT was the reference liquid scintillator in this study. The background counts for these vials were found to be 2.5 counts per minute. Tritiated water of 1.5 Bq‧mL−1 was employed as an internal standard to determine the counting efficiency. The counting efficiencies for the 100-mL PFA, 100-mL PE, and 145-mL PE vials were estimated to be 17%, 16%, and 13%, respectively. The lower limits of detection of these vials for a counting time of 100 min were 1.45 Bq‧L−1 for 100-mL PFA vials, 1.54 Bq‧L−1 for 100-mL PE vials, and 1.47 Bq‧L−1 for 145-mL PE vials. Thus, these vials demonstrate similar performances for tritium measurements.

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KW - lower limits of detection

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Applicability of a 100-mL Polyethylene Vial for Low-Level Tritium Measurement Using a Low-Background Liquid Scintillation Counter

Abstract

Keywords

ASJC Scopus subject areas

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