Effect of the synthetic zeolite modification on its physicochemical and catalytic properties in the preparation of the catalysts effectively removing sulphur dioxide from exhaust gases

Marcewicz-Kuba, A.

doi:10.1515/pjct-2016-0027

Artykuł - szczegóły

Tytuł artykułu

Effect of the synthetic zeolite modification on its physicochemical and catalytic properties in the preparation of the catalysts effectively removing sulphur dioxide from exhaust gases

Autorzy

Marcewicz-Kuba A.

Treść / Zawartość

Pełne teksty:

Polish Journal of Chemical Technology_2_2016_Marcewicz-Kuba.pdf

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Identyfikatory

DOI

10.1515/pjct-2016-0027

Warianty tytułu

Języki publikacji

Abstrakty

This work presents the research results of the influence of modification deSONOx type catalyst of the sulfur dioxide emissions in the process of the hard coal combustion. The addition of zeolite catalysts modified by transition metal ions: V, Mg, activated by zinc sorbent with or without graphite addition caused the deeper burning of coal grains. The addition of the deSOx catalysts to the coal resulted in lowered sulphur dioxide emission. The addition of unmodified zeolite to coal during combustion reduced sulphur dioxide emission at about 5%. The modification of the support by both V and Mg reduced the amount of sulphur dioxide significantly. The obtained results of SO2 removal from exhaust gases were from 34.5% for Sip/Mg to 68.3% for Sip/V.

Słowa kluczowe

catalyst synthetic zeolite desulphurisation coal burning

Wydawca

West Pomeranian University of Technology. Publishing House

Czasopismo

Polish Journal of Chemical Technology

Rocznik

2016

Tom

Vol. 18, nr 2

Strony

40--45

Opis fizyczny

Bibliogr. 24 poz., rys., tab.

Twórcy

autor

Marcewicz-Kuba A.

agnieszka.marcewicz-kuba@umcs.lublin.pl

Maria Curie-Sklodowska University, Department of Environmental Chemistry, Faculty of Chemistry, Lublin, Poland

Bibliografia

1. Lorenz, U. (2014). Steam coal in the world – forecasts. Energy Police J. 17(4), 7–20.
2. Blaschke, W., Baic, I. & Witkowska-Kita, B. (2014). Research on determination of coal washability in the separating effect of dry coal cleaning. Energy Police J, 17(4) 117–123.
3. Czapliński (eds.) (1994) Coal, Publisher AGH, Kraków (in Polish).
4. The Polish Energy Policy until 2030. (2009) The Ministry of Economy. The Annex to the Resolution 202/2009 of the Council of Ministers of 10 November 2009, Warsaw (in Polish).
5. Gostomczyk, M.A. & Rzepecka-Skrzat, A. (1996). Simultaneous Removal of Sulphur Dioxide and Nitrogen Oxides from Flue Gases: A Review of Methods. Environ. Protec. 62(3), 27–32 (in Polish).
6. Rzepecka-Skrzat, A. (1996). The dry method of flue gas desulphurisation. Environ. Protec. 61(2), 39–43 (in Polish).
7. Stańczyk, K. (2008). Clean coal technologies, Publishing GIG Katowice (in Polish).
8. Chachuła, J., Piecha, A. & Sopicki, T. (1990). Polish Patent No.163166.
9. Szymanek, A. & Nowak, W. (2007). Mechanically activated limestone sorbent. Chem. Proc. Engineer. 28(1), 127–137.
10. Jarosiński, J. (1996). Techniques of clean burning, WNT Publishing, Warszawa (in Polish).
11. Grzybowska-Świerkosz, B. (1993). Elements of heterogeneous catalysis, PWN Publishing, Warszawa 1993 (in Polish).
12. Więckowska, J. (1995). Catalytic and adsorptive desulphurization of gases. Catalysis Today 24(14), 405–465. DOI: 10.1016/0920-5861(95)00021-7.
13. Martynik, H. & Więckowska, J. (2003). Copper, manganese and copper-manganese sorbents for desulfurization of hot off-gases. Przem. Chem. 2003, 82(8/9), 1491–1994 (in Polish).
14. Marcewicz-Kuba, A., Nazimek, D. & Wasińska, Z. (2010). Polish Patent No.386676.
15. Grzegorczyk, W, Marcewicz-Kuba, A., Nazimek, D. & Wasińska, Z. (2004). Polish Patent No. 326374.
16. Grzegorczyk, W, Marcewicz-Kuba, A., Nazimek, D. & Wasińska, Z. (2005). Polish Patent No. 324999.
17. Nazimek, D. (2001). The evolution of matter, the evolution of the environment, UMCS, Lublin (in Polish).
18. Nazimek, D. (2005). Black Magic – catalytic method of desulfurization and denitrif cation of exhaust gases. Publishers UMCS, Lublin (in Polish).
19. Marcewicz-Kuba, A., Nazimek, D. & Kubica, K. (2003). The effect of the active phase of DESONOX catalyst modifiers on catalyst activity in desulfurization of hard coal combustion gases. Przem. Chem. 82(8/9), 736–739 (in Polish).
20. Marcewicz – Kuba, A. & Nazimek, D. (2002) Influence of added molybdenum on the activity of DESONOX catalysts. Ads.Sci. Technol. 6, 549–551. DOI: 10.1260/026361702321039474.
21. Marcewicz-Kuba, S. Pasieczna-Patkowska. (2010). Preparation of coal combustion catalysts – research FTIR / PAS. Sci. Ind. Spectro. Methods Pract. Challen. Opportun. (p. 44–47). Lublin (in Polish).
22. Marcewicz-Kuba, A. & Czech, B. (2014). The use of TiO2 to remove sulfur contaminants from the combustion of coal. Sci. Ind. Spectro. Methods Pract. Challen. Opportun. (p. 601–608). Lublin (in Polish).
23. Retrieved November 23, 2015. from http://www.sipernat.com/lpa-productfi nder/page/productsbytext/detail.html
24. Marcewicz-Kuba, A. (2003). Optimization of the preparation process and the impact of metal oxides on the properties of DESONOX catalysts. Unpublished doctoral dissertation. University of Maria Sklodowska-Curie, Lublin, Poland (in Polish).

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-bf1f2a1f-813c-4e37-b4af-e47b32b5ae8d