Coal-packed methane biofilter for mitigation of green house gas emissions from coal mine ventilation air

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Abstract

Methane emitted by coal mine ventilation air (MVA) is a significant greenhouse gas. A mitigation strategy is the oxidation of methane to carbon dioxide, which is approximately twenty-one times less effective at global warming than methane on a mass-basis. The low non-combustible methane concentrations at high MVA flow rates call for a catalytic strategy of oxidation. A laboratory-scale coal-packed biofilter was designed and partially removed methane from humidified air at flow rates between 0.2 and 2.4 L min -1 at 30°C with nutrient solution added every three days. Methane oxidation was catalysed by a complex community of naturally-occurring microorganisms, with the most abundant member being identified by 16S rRNA gene sequence as belonging to the methanotrophic genus Methylocystis. Additional inoculation with a laboratorygrown culture of Methylosinus sporium, as investigated in a parallel run, only enhanced methane consumption during the initial 12 weeks. The greatest level of methane removal of 27.260.66 g methane m23 empty bed h21 was attained for the non-inoculated system, which was equivalent to removing 19.762.9% methane from an inlet concentration of 1% v/v at an inlet gas flow rate of 1.6 L min21 (2.4 min empty bed residence time). These results show that low-cost coal packing holds promising potential as a suitable growth surface and contains methanotrophic microorganisms for the catalytic oxidative removal of methane.©2014 Limbri et al.

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Limbri, H., Gunawan, C., Thomas, T., Smith, A., Scott, J., & Rosche, B. (2014). Coal-packed methane biofilter for mitigation of green house gas emissions from coal mine ventilation air. PLoS ONE, 9(4). https://doi.org/10.1371/journal.pone.0094641

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