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2016 | 25 | 1 |
Tytuł artykułu

Sorbents used for biogas desulfurization in the adsorption process

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Our paper discusses the issue of biogas desulfurization with adsorbents. The authors investigated biogas in terms of the relationship between anaerobic digestion substrates and a chemical composition of the product. Based on the literature review, each group of adsorbents and their representatives was examined, with special attention paid to carbon and mineral adsorbents. The authors analyzed the desulfurization process using in particular activated carbon, oxide adsorbents, and zeolites.
Słowa kluczowe
Wydawca
-
Rocznik
Tom
25
Numer
1
Opis fizyczny
p.37-43,fig.,ref.
Twórcy
autor
  • Institute of Water Supply and Environmental Protection, Faculty of Environmental Engineering, Cracow University of Technology, Warszawska 24, 31-155 Krakow, Poland
autor
  • Institute of Water Supply and Environmental Protection, Faculty of Environmental Engineering, Cracow University of Technology, Warszawska 24, 31-155 Krakow, Poland
Bibliografia
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  • 2. GARCíA G., CASCAROSA E., ÁBREGO J., GONZALO A., SÁNCHEZ J.L. Use of different residues for high temperature desulphurisation of gasification gas. Chemical Engineering Journal 174, 644, 2011.
  • 3. DE ARESPACOCHAGA N., VALDERRAMA C., MESA C., BOUCHY L., CORTINA J.L. Biogas deep clean-up based on adsorption technologies for Solid Oxide Fuel Cell applications. Chemical Engineering Journal 255, 593, 2014.
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  • 6. HERNÁNDEZ S., CHIAPPERO M., RUSSO N., FINO D. A novel ZnO-based adsorbent for biogas purification in H2 production systems. Chemical Engineering Journal 176-177, 272, 2011.
  • 7. SISANI E., CINTI G., DISCEPOLI G., PENCHINI D., DE-SIDERI U., MARMOTTINI F. Adsorptive removal of H2S in biogas conditions for high temperature fuel cell systems. International Journal of Hydrogen Energy 39, 21753, 2014.
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  • 10. BIERNAT K., SAMSON-BRĘK I. Review oftechnology for cleaning biogas to natural gas quality, Chemik. 65 (5), 435, 2011.
  • 11. HOLEWA J., KUKULSKA-ZAJĄC E. Analysis of the possibility of introducing biogas into the industrial network. 8, 523, 2012 [In Polish].
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  • 13. HERNÁNDEZ S.P., SCARPA F., FINO D., CONTI R. Biogas purification for MCFC application. International Journal of Hydrogen Energy 36 (13), 8112, 2011.
  • 14. GUTIERREZ ORTIZ F.J., AGUILERA P.G., OLLERO P. Biogas desulfurization by adsorption on thermally treated sewage-sludge. Separation and Purification Technology 123 200, 2014.
  • 15. PEU P., PICARD S., DIARA A., GIRAULT R., BELINE F.,BRIDOUX G., DABERT P. Prediction of hydrogen sulphide production during anaerobic digestion of organic substrates. Bioresource Technology 121, 419, 2012.
  • 16. NEMATI M., HARRISON S.T.L., HANSFORD G.S., WEBB C. Biological oxidation of ferrous sulphate by Thiobacillus ferrooxidans: a review on the kinetic aspects. Biochemical Engineering Journal 1, 171, 1998.
  • 17. POKORNA D., ZABRANSKA J. Sulfur-oxidizing bacteria in environmental technology, Biotechnology Advances 2015 in press, http:/ /dx.doi.org/10.1016/j.biotechadv.2015.02.007
  • 18. JĘDRCZAK A. Biological treatment of waste, Wyd. PWN, Warszawa 2007, 186, ISBN 978-83-01-15166-9 [In Polish].
  • 19. KWAŚNY J., BALCERZAK W. Characteristics of selected indirect methods of reducing the emission of odors. Archives of Waste Management and Environmental Protection 16, (4), 125, 2014.
  • 20. CHOMA J., JARONIEC M. The porosity of the adsorbent and catalysts: the classical methods of analysis, their capabilities and restrictions. Ochrona środowiska 2 (81), 3, 2001 [In Polish].
  • 21. BANDOSZ T.J., BIGGS M.J., GUBBINS K.E., HATTORI Y., IIYAMA T., KANEKO K., PIKUNIC J., THOMSON K.T., Molecular models of porous carbons in Chemistry & Physics of Carbon, L.R. Radovic ed., 42, 2003.
  • 22. CARROTT P.J.M., RIBERIO CARROTT M.M.L., LIMA R.P. Preparation of activated carbon "membranes" by physical and chemical activation of cork, Carbon 37, 515, 1999.
  • 23. CHOMA J., OSUCHOWSKI Ł., DZIURA A., KWIAT-KOWSKA-WóJCIK W., JARONIEC M. Adsorption properties of activated carbons obtained from fibers Kelvar, Ochrona Środowiska 36 (4), 3, 2014 [In Polish].
  • 24. CHOMA J., OSUCHOWSKI Ł., JARONIEC M. Properties and the use of activated carbons derived from mineral polymer. Ochrona Środowiska 36 (2), 3, 2014 [In Polish].
  • 25. MATOS J., LAINE J., HERRMANN J-M. Association of activated carbons of different origins with titania in the photocatalytic purification of water, Carbon 37, 1870, 1999.
  • 26. GIL-LALAGUNA N., SÁNCHEZ J.L., MURILLO M.B., GEA G. Use of sewage sludge combustion ash and gasification ash for high-temperature desulphurization of different gas streams, Fuel 141, 99, 2015.
  • 27. ZHANG Z.F., LIU B.S., WANG F., ZHENG S. High-temperature desulfurization of hot coal gas on Mo modified Mn/ KIT-1 sorbents, Chemical Engineering Journal (2015), doi: http://dx.doi.org/10.1016/j.cej.2015.02.091
  • 28. XU X., ZHANG S., LI P., SHEN Y. Adsorptive desulfuriza-tion of liquid Jet-A fuel at ambient conditions with an improved adsorbent for on-board fuel treatment for SOFC applications, Fuel Processing Technology 124, 140, 2014.
  • 29. KIENBERGER T., ZUBER C., NOCOSEL K., BAUM-HAKL C., KARL J. Desulfurization and in situ tar reduction within catalytic methanation of biogenous synthesis gas, Fuel 107, 102, 2013.
  • 30. HUSSAIN M., ABBAS N., FINO D., RUSSO N. Novel mesoporous silica supported ZnO adsorbents for the desul-phurization of biogas at low temperatures, Chemical Engineering Journal 188, 222, 2012.
  • 31. JAIBOON V., YOOSUK B., PRASASSARAKICH P. Amine modified silica xerogel for H2S removal at low temperature, Fuel Processing Technology 128, 276-282, 2014.
  • 32. MICOLI L., BAGNASCO G., TURCO M. H2S removal from biogas for fuelling MCFCs: New adsorbing materials, International Journal of Hydrogen Energy 39, 1783, 2014.
  • 33. HERNÁNDEZ S., SOLARINO L., ORSELLO G., RUSSO N., FINO D., SARACCO G., SPECCHIA V. Desulfurization processes for fuel cells systems. International Journal of Hydrogen Energy 33, 3209, 2008.
  • 34. BARELLI L., BIDINI G., GALLORINI F. H2S absorption on activated carbons NoritRB1: CFD model development, Fuel Processing Technology 100, 35, 2012.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-33e0206a-1d14-4b75-9a46-ee1972ffe5cd
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