Characteristics of the methanotroph used in coalbed methane emission reduction: Methane oxidation efficiency and coal wettability

[1]  Yi-du Hong,et al.  Influence of coal deformation on the Knudsen number of gas flow in coal seams , 2021 .

[2]  Jianping Wei,et al.  The influence of long-time water intrusion on the mineral and pore structure of coal , 2021 .

[3]  Tingxiang Ren,et al.  Experimental investigation of the use of methanotrophs for the degradation of low-concentration methane , 2021, Arabian Journal of Geosciences.

[4]  Zenghua Li,et al.  Influence of alkaline solution injection for wettability and permeability of coal with CO2 injection , 2020 .

[5]  I. Pecorini,et al.  Mitigation of Methane, NMVOCs and Odor Emissions in Active and Passive Biofiltration Systems at Municipal Solid Waste Landfills , 2020, Sustainability.

[6]  Hetao Su,et al.  Effects of organic micromolecules in bituminous coal on its microscopic pore characteristics , 2020 .

[7]  Chunshan Zheng,et al.  Drying kinetics of coal under microwave irradiation based on a coupled electromagnetic, heat transfer and multiphase porous media model , 2019, Fuel.

[8]  Rajendra Singh,et al.  Microbial consortia including methanotrophs: some benefits of living together , 2019, Journal of Microbiology.

[9]  Zenghua Li,et al.  Effects of pore structure and methane adsorption in coal with alkaline treatment , 2019, Fuel.

[10]  Zenghua Li,et al.  CO2 injection in coal: Advantages and influences of temperature and pressure , 2019, Fuel.

[11]  S. Jeong,et al.  Development of a novel methanotrophic process with the helper micro‐organism Hyphomicrobium sp. NM3 , 2018, Journal of applied microbiology.

[12]  N. Vasudevan,et al.  Methane oxidation capacity of methanotrophs isolated from different soil ecosystems , 2018, International Journal of Environmental Science and Technology.

[13]  Dedy Dwi Prastyo,et al.  Comparison between VAR, GSTAR, FFNN-VAR and FFNN-GSTAR Models for Forecasting Oil Production , 2018, MATEMATIKA.

[14]  P. Kjeldsen,et al.  Mitigation of methane emissions in a pilot-scale biocover system at the AV Miljø Landfill, Denmark: 2. Methane oxidation. , 2017, Waste management.

[15]  Z. Mou,et al.  Mitigation of methane emissions in a pilot-scale biocover system at the AV Miljø Landfill, Denmark: 1. System design and gas distribution. , 2017, Waste management.

[16]  M. Heitz,et al.  Elimination of mass transfer and kinetic limited organic pollutants in biofilters: A review , 2017 .

[17]  Ji-ti Zhou,et al.  Enrichments of methanotrophic-heterotrophic cultures with high poly-β-hydroxybutyrate (PHB) accumulation capacities. , 2017, Journal of environmental sciences.

[18]  O. Karthikeyan,et al.  Influence of nutrients on oxidation of low level methane by mixed methanotrophic consortia , 2016, Environmental Science and Pollution Research.

[19]  Kyung-Suk Cho,et al.  Density-dependent enhancement of methane oxidation activity and growth of Methylocystis sp. by a non-methanotrophic bacterium Sphingopyxis sp , 2014, Biotechnology reports.

[20]  P. Vandamme,et al.  The more, the merrier: heterotroph richness stimulates methanotrophic activity , 2014, The ISME Journal.

[21]  Andrew R. Smith,et al.  Coal-Packed Methane Biofilter for Mitigation of Green House Gas Emissions from Coal Mine Ventilation Air , 2014, PloS one.

[22]  G. Aydin,et al.  Production Modeling in the Oil and Natural Gas Industry: An Application of Trend Analysis , 2014 .

[23]  Wei Bing Zhang,et al.  Sustainable Utilization of Regional Water Resource in Yin Chuan City Based on Fuzzy Matter-Element Model , 2013 .

[24]  Katherine H. Rostkowski,et al.  Selection of Type I and Type II methanotrophic proteobacteria in a fluidized bed reactor under non-sterile conditions. , 2011, Bioresource technology.

[25]  Y. Sakai,et al.  Stimulation of Methanotrophic Growth in Cocultures by Cobalamin Excreted by Rhizobia , 2011, Applied and Environmental Microbiology.

[26]  J. Gebert,et al.  Relevance of soil physical properties for the microbial oxidation of methane in landfill covers , 2011 .

[27]  S. Dhakal Urban energy use and carbon emissions from cities in China and policy implications , 2009 .

[28]  Alex Vermeulen,et al.  The state of greenhouse gases in the atmosphere using global observations through 2018 , 2009 .

[29]  N. Stralis-Pavese,et al.  Nutrient Amendments in Soil DNA Stable Isotope Probing Experiments Reduce the Observed Methanotroph Diversity , 2006, Applied and Environmental Microbiology.

[30]  M. Elimelech,et al.  Interpreting deposition patterns of microbial particles in laboratory-scale column experiments. , 2003, Environmental science & technology.

[31]  P. Czepiel,et al.  Use of stable isotopes to determine methane oxidation in landfill cover soils , 1998 .

[32]  William A. Apel,et al.  Use of methanotrophic bacteria in gas phase bioreactors to abate methane in coal mine atmospheres , 1991 .

[33]  Minghao Wang,et al.  Study on the coal damage effects caused by the CO2-alkaline water two-phase displacing gas and wetting coal , 2022, Fuel.

[34]  Lei Wang,et al.  Gas-liquid competitive adsorption characteristics and coal wetting mechanism under different pre-adsorbed gas conditions , 2022, Fuel.

[35]  Kyung-Suk Cho,et al.  Seasonal characteristics of odor and methane mitigation and the bacterial community dynamics in an on-site biocover at a sanitary landfill. , 2018, Waste management.

[36]  Baiquan Lin,et al.  Surface physical properties and its effects on the wetting behaviors of respirable coal mine dust , 2013 .

[37]  Lei Wang,et al.  Environmental impact of coal mine methane emissions and responding strategies in China , 2011 .

[38]  Hua Guo,et al.  An assessment of mine methane mitigation and utilisation technologies , 2005 .