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Transformation of methane in peatland environments

References Armstrong W. 1979. Aeration in higher plants. Advances in Botanical Research, 7: 225-332. Aulakh M. S., Wassmann R., Rennenberg H., Fink S. 2000. Pattern and amount of aerenchyma relate to variable methane transport capacity of different rice cultivars. Plant Biology, 2: 182-194. Avery G. B., Shannon R. D., White J. R., Martens C. S. Alperin M. J. 2003. Controls on methane production in a tidal freshwater estuary and a peatland: methane production via acetate fermentation and CO2 reduction

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Bromine catalyst for the methane to methyl bisulfate reaction

References 1. Mukhopadhyay, S. & Bell, A.T. (2003) Direct catalytic sulfonation of methane with SO2 to methanesulfonic acid (MSA) in the presence of molecular O2. Chem. Commun . 1590-1591. DOI: 10.1039/b303561a. 2. Kao, L-C, Hutson, A.C. & Sen, A. (1991) Low temperature, palladium(II)-catalyzed, solution-phase oxidation of methane to methanol derivative. J. Am. Chem. Soc . 113, 700-701. DOI: 10.1021/ja00002a063. 3. Periana, R.A.,. Taube, D.J, Evitt, E.R., Löffle,r D.G., Wentrcek, P.R, Voss, G. & Masuda

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The Use of a Unipore Diffusion Model to Describe the Kinetics of Methane Release from Coal Spoil in the Longwall Environment

risk on the basis of knowledge and experience - the expert system based on fuzzy logic, Arch. Min. Scs., 2014, 59. [11] SKOCZYLAS N., WIERZBICKI M., Uwalnianie metanu z prób węglowych - fizyka zjawiska i metoda pomiarowa, Prace Instytutu Mechaniki Górotworu PAN, 2015, Vol. 17, No. 1-2, 81-86. [12] TARASOV B.G., KOLMAKOV B.A., Gazovyi barrier ugolnykh shakht, Izdatelstvo “Nedra”, Moskva 1978. [13] WIERZBICKI M., Changes in the sorption/diffusion kinetics of a coal-methane system caused by different temperatures and

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Role of Landfill Cover in Reducing Methane Emission

(Eds.), New York:Cambridge University Press, Cambridge. [2] Juda-Rezler K. (2010). New Chall enges in Air Quality and Climate Modeling, Arch. Environ. Prot. , 36, 3-28. [3] Themelis N.J., & Ulloa, P.A. (20 07). Methane generation in landfi lls. Renew. Energy , 32, 1243-1257. [4] USEPA: Development document for fi nal effl uent limitations guidelines and standards for the landfi lls pointsource category, EPA-821-R-99-109, Washington, DC; 2000; http://www.epa.gov . [5] Heyer J., Galchenko, F.V., & Dunfi

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Methane fermentation of poultry slaughterhouse waste

). Waste release from meat processing. Polish Journal of Chemical Technology , 9, 3, pp. 91-94. DOI: 10.2478/v10026-007-0062-3. Buraczewski, G. (1989). Methane fermentation. Polish Scientific Publishers PWN Warsaw. (in Polish). Jędrczak, A. (2008). Biological waste treatment. Polish Scientific Publishers PWN Warsaw. (in Polish). Regulation (EC) No 1774/2002 of the European Parliament and of the Council of 3 October 2002 laying down health rules concerning animal by-products not intended

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The Impact of Methane Slip from Vessels on Environment

References [1] Baekert, M., LNG as fuel for shipping , Norsk Gassforum, DNV-GL, Brussels 2016. [2] Cargo Operating Manual of Al Qattara , 2008. [3] Contessi, C., Gas engine emissions. Wartsila dual engines , Wartsila 2013. [4] Corbett, J. J., et al., Methane emissions from natural gas bunkering operations in the marine sector: A total fuel cycle approach , prepared for: US Department of Transportation Maritime Administration, 2015. [5] Friederich, G., LNG as ship fuel , Innovation Update, Germanischer Lloyd, 2013. [6] Gas

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Methane Slip During Cargo Operations on LNG Carriers and LNG-Fueled Vessels

REFERENCES Mitsui OSK Lines Ltd., (2007). LNG Carrier Operation Technology Text. Hamworthy Gas Systems AS, (2006). QGII QFLEX Operational Manual. Cargo Operating Manual, (2008). McGuire and White, (2008). Liquefied Gas Handling Principles on Ships and in Terminals, SIGGTO, Witherby Publishers. IMO, (2009). Gas Tanker Advanced Course. LNG Custody Transfer Handbook, (2001). G.I.I.G.N.L. DS TML/Z–CG–2001. European Commission, (2016). Methane emissions from LNG-powered ships higher than current marine fuel oils, Science for

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Methodology of Estimation of Methane Emissions from Coal Mines in Poland

emission system, calculation of emissions for the last year using the indications of the OECD/IPCC methodology and given methodologies of current information updating, National Fund of Environmental Protection, Warsaw, 1994, (nonpublished). [4] GAWLIK L., GRZYBEK I., Methodology of estimation of methane emissions connected with coal exploitation in Poland, Mineral Raw Materials Management, Vol. II, Booklet 3, 1995. [5] GAWLIK L., GRZYBEK I., Investigation results and recommendations for uncertainty reduction and clarity improvement of

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New Instruments and Methods for Analysing the Coal-Methane System

References [1] CRANK J., The Mathematics of diffusion, 2nd ed., Oxford Univ. Press, London, 1975, 414. [2] CROSDALE P.J., BEAMISH B.B., Marjorie Valix Coalbed methane sorption related to coal composition, International Journal of Coal Geology, 1998, 35, 147-158. [3] GAWOR M., SKOCZYLAS N., Sorption Rate of Carbon Dioxide on Coal, Transport in Porous Media, 2014, Vol. 101, Iss. 2, 269-279. [4] HARPALANI S., CHEN G., Influence of gas production induced volumetric strain on permeability of coal

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Dry and steam reforming of methane. Comparison and analysis of recently investigated catalytic materials. A short review.

LITERATURE CITED 1. Rostrup-Nielsen, J.R. (2004) Fuels and energy for the future: The role of catalysis Catal Rev – Sci Eng, https://doi.org/10.1081/CR-200036716 . 2. Turner, J.A. (2004) Sustainable hydrogen production Science (80-), https://doi.org/10.1126/science.1103197 . 3. Samojeden, B. (2018). The current and future trends in chemical CO2 utilization In: Contemp. Probl. Power Eng. Environ. Prot. 2017 222–226. 4. Fish, J.D. & Hawn, D.C. (1987). Closed Loop Thermochemical Energy Transport Based on CO2 Reforming of Methane

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