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Use of gas push-pull tests for the measurement of methane oxidation in different landfill cover soils
Publikationstyp
Journal Article
Date Issued
2011
Sprache
English
Journal
Volume
31
Issue
5
Start Page
995
End Page
1001
Citation
Waste Management 31 (5): 995-1001 (2011)
Publisher DOI
Scopus ID
Publisher
Elsevier Science
In order to optimise methane oxidation in landfill cover soils, it is important to be able to accurately quantify the amount of methane oxidised. This research considers the gas push-pull test (GPPT) as a possible method to quantify oxidation rates in situ. During a GPPT, a gas mixture consisting of one or more reactive gases (e.g., CH4, O2) and one or more conservative tracers (e.g., argon), is injected into the soil. Following this, the mixture of injected gas and soil air is extracted from the same location and periodically sampled. The kinetic parameters for the biological oxidation taking place in the soil can be derived from the differences in the breakthrough curves. The original method of Urmann et al. (2005) was optimised for application in landfill cover soils and modified to reduce the analytical effort required. Optimised parameters included the flow rate during the injection phase and the duration of the experiment. 50 GPPTs have been conducted at different landfills in Germany during different seasons. Generally, methane oxidation rates ranged between 0 and 150g msoil air-3h-1. At one location, rates up to 440g msoil air-3h-1 were measured under particularly favourable conditions. The method is simple in operation and does not require expensive equipment besides standard laboratory gas chromatographs.
DDC Class
620: Engineering
Funding(s)
Climate protection: microbial methane oxidation in landfill covers” (MiMethox)
Funding Organisations