CleanEx: A Versatile Automated Methane Preconcentration Device for High-Precision Analysis of 13CH4, 12CH3D, and 13CH3D.

Prokhorov, Ivan; Mohn, Joachim

CleanEx: A Versatile Automated Methane Preconcentration Device for High-Precision Analysis of ¹³CH₄, ¹²CH₃D, and ¹³CH₃D.

Prokhorov, Ivan; Mohn, Joachim.

Afiliación

Prokhorov I; Laboratory for Air Pollution/Environmental Technology, Empa, 8600 Dübendorf, Switzerland.
Mohn J; Laboratory for Air Pollution/Environmental Technology, Empa, 8600 Dübendorf, Switzerland.

Anal Chem ; 94(28): 9981-9986, 2022 07 19.

Article en En | MEDLINE | ID: mdl-35776914

RESUMEN

The relative abundance of methane isotopologues offers key insights into the global methane (CH4) cycle. Advances in laser spectroscopy enable routine high-precision measurements even for rare deuterated methane isotopologues, 12CH3D and 13CH3D, provided there are sufficiently high methane amount fractions and reproducible measurement conditions, which can be achieved by CH4 adsorption-desorption techniques. We present a new cryogen-free automated preconcentration deviceâCleanExâdesigned for quantitative extraction of CH4 from large volumes of sample gas and for cleaning by stepwise temperature-controlled desorption to separate interferant gases. We show that CleanEx has the capability to preconcentrate methane by almost 2000-fold from â¼18 L of air. The performance is demonstrated in a range of methane amount fractions between 2 ppm (µmol mol-1), which corresponds to the present-day ambient air, up to 1000 ppm, representative for close to source or process conditions. Advantages over existing devices are a significantly larger primary adsorption trap and a secondary cryo-focusing step, which ensures separation of methane from major atmospheric compounds, i.e., O2, Ar, and CO2. We have demonstrated quantitative extraction of methane, with no significant isotopic fractionation and high repeatability of 0.2, 0.6, and 0.8 (n = 42) for the studied isotopologue ratios, 13CH4/12CH4, 12CH3D/12CH4, and 13CH3D/12CH4, during cryogenic adsorption-desorption on HayeSep D material. The developed device in combination with a suitable laser spectrometer offers a robust and autonomous method for precise continuous monitoring of Î´13C-CH4 and Î´D-CH4 in ambient air and optionally Δ13CH3D in process-derived methane.

Asunto(s)

Gases; Metano; Rayos Láser; Metano/análisis

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Gases / Metano Idioma: En Revista: Anal Chem Año: 2022 Tipo del documento: Article País de afiliación: Suiza Pais de publicación: Estados Unidos

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