Journal
WASTE MANAGEMENT
Volume 132, Issue -, Pages 162-175Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.wasman.2021.07.012
Keywords
Carbon isotopic signature; Landfill methane emissions; Gas well isotopic signature; Oxidised proportion estimation
Categories
Funding
- MEthane goes MObile: MEasurement and MOdeling (MEMO2) project from European Union [722479]
- U.K. Natural Environment Research Council [NE/P019641/1, NE/N016238/1]
- NERC [NE/N016238/1, NE/P019641/1] Funding Source: UKRI
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Biological oxidation of methane in landfill cover material can be calculated from the carbon isotopic signature of emitted CH4. The study found significant differences in methane oxidation proportion between different landfill sites, with varying isotopic signatures between closed and active landfills.
Biological oxidation of methane in landfill cover material can be calculated from the carbon isotopic signature (delta C-13(CH4)) of emitted CH4. Enhanced microbial consumption of methane in the aerobic portion of the landfill cover is indicated by a shift to heavier (less depleted) isotopic values in the residual methane emitted to air. This study was conducted at four landfill sites in southwest England. Measurement of CH4 using a mobile vehicle mounted instrument at the four sites was coupled with Flexfoil bag sampling of ambient air for high-precision isotope analysis. Gas well collection systems were sampled to estimate landfill oxidised proportion. Closed or active status, seasonal variation, cap stripping and site closure impact on landfill isotopic signature were also assessed. The delta C-13(CH4) values ranged from-60 to-54 parts per thousand, with an average value of-57 +/- 2 parts per thousand. Methane emissions from active cells are more depleted in C-13 than closed sites. Methane oxidation, estimated from the isotope fractionation, ranged from 2.6 to 38.2%, with mean values of 9.5% for active and 16.2% for closed landfills, indicating that oxidised proportion is highly site specific.Y
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