References
- Boucher, O. & Folberth, G.A. (2010). New Directions: Atmospheric methane removal as a way to mitigate climate change? Atmospheric Environment, 44, 3343-3345. DOI: 10.1016/j.atmosenv.2010.04.032.
- Karakurt, I., Aydin, G. & Aydiner, K. (2011). Mine ventilation air methane as a sustainable energy source. Renewable and Sustainable Energy Reviews, 15, 1042-1049. DOI: 10.1016/j.rser.2010.11.030.
- Raporty Roczne (1986-2007) o stanie podstawowych zagrożeń naturalnych i technicznych w górnictwie węgla kamiennego, GIG, Katowice 1986-2007.
- Ciuparu, D., Lyubovsky, M.R., Altman, E., Pfefferie L.D. & Datye, A. (2002). Catalytic combustion of methane over palladium-based catalysts. Catalysis Reviews, 44 (4), 593-649. DOI: 10.1081/CR-120015482.
- Gelin, P. & Primet, M. (2002). Complete oxidation of methane at low temperature over noble metal based catalysts: a review. Applied Catalysis B, 39 (1), 1-37. PII: S0926337302000760.
- Kinnunen, N.M., Suvanto, M., Moreno, M.A., Savimaki, A., Kinnunen, T.-J.J. & Pakkanen, T.A. (2009). Methane oxidation on alumina supported palladium catalysts: Effect of Pd precursor and solvent. Applied Catalysis A, 370 (1-2), 78-87. DOI: 10.1016/j.apcata.2009.09.018.
- Roth, D., Gelin, P., Kaddouri, A., Garbowski, E., Primet, M. & Tena, E. (2006). Oxidation behaviour and catalytic properties of Pd/Al2O3 catalysts in the total oxidation of methane, Catalysis Today, 112 (1-4), 134-138. DOI: 10.1016.j.cattod.2005.11.048.
- Escandon, L.S., Ordonez, S., Vega, A. & Diez, F.V. (2005). Oxidation of methane over palladium catalysts: effect of the support, Chemosphere, 58 (1), 9-17. DOI: 10.1016/j.chemosphere.2004.09.012.
- Choudhary, T.V., Banerjee, S. & Choudhary, V.R. (2005). Influence of PdO content and pathway of its formation on methane combustion activity, Catalysis Communications, Vol. 6, 97-100. DOI: 10.1016/j.catcom.2004.11.004.
- Nijhuis, T.A., Beers, A.E.W., Vergunst, T., Hoek, I., Kapteijn, F. & Moulijn, J.A. (2001) Preparation of monolithic catalysts, Catalysis Reviews, 43 (4), 345-380.
- Farrauto, R.J., Hobson, M.C., Kennelly, T. & Waterman, E.M. (1992) Catalytic chemistry of supported palladium for combustion of methane. Applied Catalysis A, 81 (2), 227-237.
- Stasińska, B., Machocki, A., Antoniak, K., Rotko, M., Figueiredo, J.L. & Goncalves, F. (2008) Importance of palladium dispersion in Pd/Al2O3 catalysts for complete oxidation of humid low-methane-air mixtures, Catalysis Today, 137, 329-334. DOI: 10.1016/j.cattod.2008.05.015.
- Ribeiro, F.H., Chow, M. & Della Beta, R.A. (1994) Kinetics of the complete oxidation of methane over supported palladium catalysts, Journal of Catalysis, 146 (2), 537.
- Giezen, J.C., Berg, F.R., Kleinen, J.L., Dillen, A.J. & Geus, J.W. (1999) The effect of water on the activity of supported palladium catalysts in the catalytic combustion of methane, Catalysis Today, 47 (1-4), 287.
- Kikuchi, R., Maeda, S., Sasaki, K., Wennerstrom, S. & Eguchi, K. (2002) Low-temperature methane oxidation over oxide-supported Pd catalysts: inhibitory effect of water vapor, Applied Catalysis A, 232, 23-28.
- Müller, C.A., Maciejewski, M., Koeppel, R.A. & Baiker, J. (1999) Combustion of methane palladium/zirconia: effect of Pd-particle size and role of lattice oxygen, Catalysis Today 47, 245.