Abstract: Estimates of methane (CH4) oxidation rates (Rg) in biocovers are crucial for development of abatement strategies. Rg values were estimated in a landfill biocover with a simple approach based on gas diffusion theory. Rg varied from 0 to 1.1 × 10–6 kg m–3 s–1. Highest oxidation efficiencies reached 80–100% when soil water content 20°C and O2 concentration > 0.1 kg m–3. Rg was correlated to oxidation efficiency measured by stable isotopes and surface emissions. The approach allows for affordable continuous monitoring of Rg, but only gives a rough estimate of CH4 oxidation rate
It has been shown that CH 4 emitted to the atmosphere from landfills can be oxidized by methanotroph...
Methane emissions from landfills make an important contribution to the anthropogenic induced global ...
Jean Bogner - Research Professor, Dept. of Earth & Environmental Sciences, UIC. Landfill methane ...
This study focused on the biotic oxidation of methane in landfill covers as a technology for reduci...
Methane, one of the primary greenhouse gases, negatively affects climate change. Its atmospheric con...
451-459Methane (CH4) emission from landfills ranks as the third major source of anthropogenic emissi...
Abstract: Biocovers are an alternative for mitigating fugitive and residual emissions of methane fro...
The microbial oxidation of methane in engineered cover soils is considered a potent option for the m...
Methane (CH4) has 21 times the global warming potential (GWP) of carbon dioxide (CO2) over a 100-yea...
An experimental landfill cover composed of a mixture of sand and compost was installed at the St-Nic...
Landfills are significant sources of atmospheric methane (CH4) that contributes to greenhouse gas ef...
Landfills are significant sources of atmospheric methane (CH 4) that contributes to greenhouse gas e...
Landfills accepting biodegradable organic waste produce significant amounts of methane richlandfill ...
Abstract — The combination of flux measurements and gas profiles were used to calculate an estimate ...
Methane (CH4) a potent greenhouse gas (GHG), has more than doubled in past decades and continues to ...
It has been shown that CH 4 emitted to the atmosphere from landfills can be oxidized by methanotroph...
Methane emissions from landfills make an important contribution to the anthropogenic induced global ...
Jean Bogner - Research Professor, Dept. of Earth & Environmental Sciences, UIC. Landfill methane ...
This study focused on the biotic oxidation of methane in landfill covers as a technology for reduci...
Methane, one of the primary greenhouse gases, negatively affects climate change. Its atmospheric con...
451-459Methane (CH4) emission from landfills ranks as the third major source of anthropogenic emissi...
Abstract: Biocovers are an alternative for mitigating fugitive and residual emissions of methane fro...
The microbial oxidation of methane in engineered cover soils is considered a potent option for the m...
Methane (CH4) has 21 times the global warming potential (GWP) of carbon dioxide (CO2) over a 100-yea...
An experimental landfill cover composed of a mixture of sand and compost was installed at the St-Nic...
Landfills are significant sources of atmospheric methane (CH4) that contributes to greenhouse gas ef...
Landfills are significant sources of atmospheric methane (CH 4) that contributes to greenhouse gas e...
Landfills accepting biodegradable organic waste produce significant amounts of methane richlandfill ...
Abstract — The combination of flux measurements and gas profiles were used to calculate an estimate ...
Methane (CH4) a potent greenhouse gas (GHG), has more than doubled in past decades and continues to ...
It has been shown that CH 4 emitted to the atmosphere from landfills can be oxidized by methanotroph...
Methane emissions from landfills make an important contribution to the anthropogenic induced global ...
Jean Bogner - Research Professor, Dept. of Earth & Environmental Sciences, UIC. Landfill methane ...
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