Atmospheric methane removal by methane-oxidizing bacteria immobilized on porous building materials

Giovanni Ganendra; Willem De Muynck; Adrian Ho; Sven Hoefman; Paul De Vos; Pascal Boeckx; Nico Boon

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Atmospheric methane removal by methane-oxidizing bacteria immobilized on porous building materials

机译：通过固定在多孔建筑材料上的甲烷氧化细菌去除大气中的甲烷

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Biological treatment using methane-oxidizing bacteria(MOB) immobilized on six porous carrier materials have been used to mitigate methane emission. Experiments were performed with different MOB inoculated in building materials at high (~20 % (v/v)) and low (~100 ppmv) methane mixing ratios. Methylocystis parvus in autoclaved aerated concrete (AAC) exhibited the highest methane removal rate at high (28.5±3.8 μg CH_4 g~(?1) building material h~(?1)) and low(1.7±0.4 μg CH_4 g~(?1) building material h~(?1)) methane mixing ratio. Due to the higher volume of pores with diameter >5 μm compared to other materials tested, AAC was able to adsorb more bacteria which might explain for the higher methane removal observed. The total methane and carbon dioxidecarbon in the headspace was decreased for 65.2±10.9%when M. parvus in Ytong was incubated for 100 h. This study showed that immobilized MOB on building materials could be used to remove methane from the air and also act as carbon sink.

机译：使用固定在六种多孔载体材料上的甲烷氧化细菌（MOB）进行的生物处理已用于减轻甲烷排放。在高（〜20％（v / v））和低（〜100 ppmv）甲烷混合比下，在建筑材料中接种不同的MOB进行了实验。在高压（28.5±3.8μgCH_4 g〜（？1）建筑材料h〜（？1））和低（1.7±0.4μgCH_4 g〜（？） 1）建筑材料h〜（？1））甲烷的混合比。由于与其他测试材料相比，直径大于5μm的孔的体积更大，AAC能够吸附更多细菌，这可能解释了观察到的更高的甲烷去除率。将Ytong的小支原体孵化100小时后，顶部空间的甲烷和二氧化碳总量减少了65.2±10.9％。这项研究表明，固定在建筑材料上的MOB可用于去除空气中的甲烷，也可作为碳汇。

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《Applied Microbiology and Biotechnology》 |2014年第8期|共10页
作者
Giovanni Ganendra; Willem De Muynck; Adrian Ho; Sven Hoefman; Paul De Vos; Pascal Boeckx; Nico Boon;
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正文语种 eng
中图分类应用微生物学;生物工程学（生物技术）;
关键词
Methane emissionmitigation; Methane-oxidizing bacteria; Bacterial immobilization; Porous buildingmaterials;

机译：缓解甲烷排放;氧化甲烷细菌;固定化细菌;多孔建筑材料;

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1. Atmospheric methane removal by methane-oxidizing bacteria immobilized on porous building materials [J] . Giovanni Ganendra, Willem De Muynck, Adrian Ho, Applied Microbiology and Biotechnology . 2014,第8期

机译：通过固定在多孔建筑材料上的甲烷氧化细菌去除大气中的甲烷
2. METHANE EMISSION MITIGATION BY METHANE-OXIDIZING BACTERIA IMMOBILIZED ON BUILDINGMATERIALS [J] . G. GANENDRA, W. DE MUYNCK, A. HO, Communications in Agricultural and Applied Biological Sciences . 2013,第1期

机译：固定在建筑材料上的甲烷氧化菌缓解甲烷排放
3. Improved methane elimination by methane-oxidizing bacteria immobilized on modified oil shale semicoke [J] . Sun Meng-Ting, Yang Zhi-Man, Fan Xiao-Lei, The Science of the Total Environment . 2019,第MARa10期

机译：通过固定在改性油页岩半焦上的甲烷氧化细菌改善了甲烷的清除
4. The Potential of Methane-Oxidizing Bacteria for Applications in the Synthesis of Green Material-PHB [C] . Heteng Wang, Jing Dong International Conference on Packaging Technology and Science . 2012

机译：甲烷氧化细菌的潜力在合成绿色材料 - PHB中的应用
5. Activity, diversity and community structure of aerobic methane-oxidizing and carbon dioxide-producing bacteria in soils from the Canadian high Arctic. [D] . Martineau, Christine. 2011

机译：加拿大高北极地区土壤中需氧甲烷氧化和产生二氧化碳的细菌的活性，多样性和群落结构。
6. ATMOSPHERIC NITROGEN FIXATION BY METHANE-OXIDIZING BACTERIA [O] . J. B. Davis, V. F. Coty, J. P. Stanley 1964

机译：甲烷氧化细菌固定氮
7. Atmospheric methane removal by methane-oxidizing bacteria immobilized on porous building materials [O] . Ganendra, G, De Muynck, W, Ho, A., 2014

机译：通过固定在多孔建筑材料上的甲烷氧化细菌去除大气中的甲烷
8. Genetics in Marine Methane-Oxidizing Bacteria [R] . 1990

机译：海洋甲烷 - 氧化细菌的遗传学

Atmospheric methane removal by methane-oxidizing bacteria immobilized on porous building materials

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