First results of a simultaneous measurement of tritium and super(14)C in an ultra-low-background proportional counter for environmental sources of methane

First results of a simultaneous measurement of tritium and super(14)C in an ultra-low-background proportional counter for environmental sources of methane

Simultaneous measurement of tritium and super(14)C would provide an added tool for tracing organic compounds through environmental systems and is possible via beta energy spectroscopy of sample-derived methane in internal-source gas proportional counters. Since the mid-1960's atmospheric tritiu...

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Bibliographic Details
Published in:Journal of environmental radioactivity Vol. 155-156; pp. 122 - 129
Main Authors: Mace, E K, Aalseth, CE, Day, A R, Hoppe, E W, Keillor, ME, Moran, J J, Panisko, ME, Seifert, A, Tatishvili, G, Williams, R M
Format: Journal Article
Language:English
Published: 01-05-2016
Subjects:
Atmospherics
Biosphere
Methane
Monte Carlo methods
Proportional counters
Radioactive tracers
Radioactivity
Tritium
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Summary:Simultaneous measurement of tritium and super(14)C would provide an added tool for tracing organic compounds through environmental systems and is possible via beta energy spectroscopy of sample-derived methane in internal-source gas proportional counters. Since the mid-1960's atmospheric tritium and super(14)C have fallen dramatically as the isotopic injections from aboveground nuclear testing have been diluted into the ocean and biosphere. In this work, the feasibility of simultaneous tritium and super(14)C measurements via proportional counters is revisited in light of significant changes in both the atmospheric and biosphere isotopics and the development of new ultra-low-background gas proportional counting capabilities for small samples (roughly 50 cc methane). A Geant4 Monte Carlo model of a Pacific Northwest National Laboratory (PNNL) proportional counter response to tritium and super(14)C is used to analyze small samples of two different methane sources to illustrate the range of applicability of contemporary simultaneous measurements and their limitations. Because the two methane sources examined were not sample size limited, we could compare the small-sample measurements performed at PNNL with analysis of larger samples performed at a commercial laboratory. These first results show that the dual-isotope simultaneous measurement is well matched for methane samples that are atmospheric or have an elevated source of tritium (i.e. landfill gas). However, for samples with low/modern tritium isotopics (rainwater), commercial separation and counting is a better fit.
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ISSN:0265-931X
DOI:10.1016/j.jenvrad.2016.02.001