Sorbent Tube Sampling and an Automated Thermal Desorption System for Halocarbon Analysis

Khan, M. Anwar H.; Mead, Mohammed Iqbal; Nickless, G.; Martin, Damien; Shallcross, Dudley E.

doi:10.3319/tao.2008.02.15.01(a)

Cited by 3 publications

(2 citation statements)

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“…The trap on the ATD system was checked by running trap heat cycles, thereby establishing that the sample chromatograms were not affected by artefacts in the system. The multi-bed tubes exhibited no residual traces of any components at the analysis desorption temperature of 380 • C [19] precluding any sample carry-over between the consecutive runs. Previous studies have shown that traps containing Ascarite II do not alter the δ 13 C values obtained for CH 3 Cl.…”

Section: Determination Of δ 13 C Valuesmentioning

confidence: 99%

“…In the present study, a preconcentration system suitable for large-volume sample collection was deployed in the Bristol urban area. [19] A new instrumental method is described that enables the application of Automated Thermal Desorber-Gas Chromatography-Combustion-Isotope Ratio Mass Spectrometry (ATD-GC-C-IRMS) to the isotope ratio measurement of selected halocarbons at ppt concentrations. Here we present δ 13 C values and mixing ratios of selected halocarbons from an urban background site in the city of Bristol, UK, generated using ATD-GC-C-IRMS and Adsorption Desorption System-Gas Chromatography-Electron Capture Detector (ADS-GC-ECD) systems in tandem.…”

Section: Introductionmentioning

confidence: 99%

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Stable carbon isotope analysis of selected halocarbons at parts per trillion concentration in an urban location

et al. 2008

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Environmental Context. Halocarbons can have significant effects on the atmosphere and the environment, particularly with regard to ozone depletion and climate change impacts. The determination of isotopic concentrations for selected halocarbon species should provide useful information to identify and constrain halocarbon sources and sinks within the urban environment. In the present study, a new instrumental method is described to determine these isotope ratios for selected halocarbons and the resultant data are interpreted in terms of local sources and sinks. Abstract. δ13C values of a suite of halocarbons have been determined in an urban background site in Bristol, UK. A novel mobile preconcentration system, based on the use of multi-adsorbent sample tubes, has been developed for trapping relatively large-volume air samples in potentially remote areas. An Adsorption Desorption System–Gas Chromatography–Electron Capture Detector was used to measure the mixing ratios of the selected halocarbon species, while a Gas Chromatography–Combustion–Isotope Ratio Mass Spectrometer was used to determine δ13C values. For the species with strong local sources, the variation of isotope ratios has been observed over the experimental period. Some of the results reported in the present study differ from previously reported values and reasons for this are discussed. The reporting of different δ13C values for selected halocarbons from different areas in the present study suggests that δ13C values may be used to determine the relative magnitudes of anthropogenic and biogenic sources.

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Section: Determination Of δ 13 C Valuesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%