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2012 | 21 | 2 |

Tytuł artykułu

Characterization of X-type zeolite prepared from coal fly ash

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
This study presents experimental results dealing with the possibility of transforming F-class fly ash into a zeolitic material. Two types of synthesis methods were used in the research: hydrothermal and low-temperature synthesis. As a result of alkaline reaction of fly ash with NaOH, all experimental cases yielded zeolitic material that are rich in a Na-X phase. The mineralogical composition (determined by SEM and XRD analysis) as well as the physio-chemical (chemical composition, CEC, textural parameters – BET surface area and PSD) properties of a Na-X phase were determined. The ratio Si/Al in the case of Na-X obtained by hydrothermal reactions was 1.2, but low-temperature reaction resulted in 1.04. CEC values for hydrothermal synthesis (average 240 meq/100g) are higher than low-temperature synthesis (average 200 meq/100 g). The BET surface area of hydrothermal Na-X is almost five times higher (332.5 m2/g) than low-temperature Na-X (73 m2/g). Hydrothermal reaction gave the zeolitic phase rich in Na-X that amount in total reaction products was from 55 to 60%, whereas in low-temperature reactions the Na-X phase in zeolitic material ranged from 42 to 55%. This work showed the potential of fly ash to be zeolitic materials through the proposed synthesis methods. An effective reaction turned out to be hydrothermal synthesis, which could form about 60% zeolite phase during a 24- hour reaction.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

21

Numer

2

Opis fizyczny

p.337-343,fig.,ref.

Twórcy

autor
  • Department of Geotechnics, Lublin University of Technology, Nadbystrzycka 40, 20-618 Lublin, Poland

Bibliografia

  • 1. AMRHEIN CH., HAGINA G.H., KIM T.S., MOSHER P.A., GAGAJENA R.C., AMANIOS T., DE LA TORRE L. Synthesis and properties of zeolites from fly ash. Environ. Sci. Technol. 30, 735, 1996.
  • 2. MATSI T., KERAMIDAS V.Z. Fly ash application on two acid soils and its effect on soil sainity, pH, B, P and on ryegrass growth and composition. Environ. Pollut. 104, 107, 1999.
  • 3. SWANEPOEL J.C., STRYDOM C.A. Utilisation of fly ash in a geopolymeric material. Appl. Geochem. 17, 1143, 2002.
  • 4. QUEROL X., MORENO N., UMANA J.C., ALASTUEY A., HERNANDEZ E., LOPEZ-SOLER A., PLANA F. Synthesis of zeolites from coal fly ash: an overview. Int. J. Coal Geol. 50, 413, 2002.
  • 5. QUEROL X., ALASTUEY A., FERNANDEZ-TURIEL J.L., LOPEZ-SOLER A. Synthesis of zeolites by alkaline activation of ferry-aluminous fly ash. Fuel 74, 1226, 1995.
  • 6. BERKGAUT V., SINGER A. High capacity cation exchanger by hydrothermal zeolitization of coal fly ash. Appl. Clay Sci. 10, 369, 1996.
  • 7. QUEROL X., ALASTUEY A., LOPEZ-SOLER A., PLANA F., ANDRES J.M., JUAN R., FERRER P., RUIZ C.R. A fast method for recycling fly ash: Micerowave – assisted zeolite synthesis. Environ. Sci. Technol. 31, 2527. 1997.
  • 8. CHANG H.L., SHIH W.H. A general method for the conversion of fly ash into zeolites as ion exchanger for cesium Ind. Eng. Chem. Res. 37, 71, 1998.
  • 9. FOTOVAT F., KAZEMIAN H., KAZEMEINI M. Synthesis of Na-A and faujasitic zeolites from high silicon fly ash. Mater. Res. Bull. 44, 913, 2009.
  • 10. INADA M., EGUCHI Y., ENOMOTO N., HOJO J. Synthesis of zeolite from coal fly ashes with different silica -alumina composition. Fuel 84, 299, 2005.
  • 11. FRANUS W., WDOWIN M. Removal of ammonium ions by selected natural and synthetic zeolites. Min. Res. Manag. 26, 4, 133, 2010.
  • 12. CZURDA K. A., HAUS R. Reactive barriers with fly ash zeolites for in situ groundwater remediation. Appl. Clay Sci. 21, 13, 2002.
  • 13. QUEROL X., UMAÑA J.C., PLANA F., ALASTUEY A., LOPEZ-SOLER A., MEDINACELI A., VALERO A., DOMINGO M.J., GARCIA-ROJO E. Synthesis of zeolites from fly ash at pilot plant scale. Examples of potential applications Fuel 80, 857, 2001.
  • 14. QUEROL X., MORENO N., UMANA J.C., JUAN R., HERNANDEZ E., FERNANDEZ-PEREIRA C., AYORA C., JANSSEN M., GARCÍA-MÁRTINEZ J., LINARESSOLANO A., CAZORLA-AMOROS D. Application of zeolitic material synthesised from fly ash to the decontamination of wastewater and flue gas. J. Chem. Technol. Biotechnol. 77, 292, 2002.
  • 15. RUEN-NGAM D., RUNGSUK D., APIRATIKUL R., PAVASANT P. Zeolite Formation from Coal Fly Ash and Its Adsorption Potential. J. Air & Waste Manage. Assoc. 59/10, 1140, 2009.
  • 16. DERKOWSKI A., FRANUS W., BERAN E., CZIMEROVA A. Properties and potential applications of zeolitic materials produced from fly ash using simple method of synthesis. Powder Technol. 166/1, 47, 2006.
  • 17. DERKOWSKI A., FRANUS W., WANIAK-NOWICKA H., CZIMEROVA A. Textural properties vs. CEC and EGME retention of Na-X zeolite prepared from fly ash at room temperature. Int. J. Miner. Process. 82, 57, 2007.
  • 18. GILLMAN G.P. A proposed method for measurement of exchange properties of highly weathered soils. Aust. J. Soil Res. 17, 129, 1979.
  • 19. ASTM C618-08 Standard Specification for Coal Fly Ash and Raw or Calcined Natural Pozzolan for Use in Concrete. ASTM International. Retrieved 2008-09-18.
  • 20. PN-EN 450-1: 2006. Fly ash for concrete.
  • 21. PN-EN 451-1:1998. Method of testing fly ash. Determination of free calcium oxide.
  • 22. IUPAC. Manual of Symbol and Terminology for Physicochemical Quantities and Units. Appendix II. Definitions, Terminology and Symbols in Colloid and Surface Chemistry. Part 1. Pure Appl. Chem., 31, (4), 579, 1972.
  • 23. SHIH W.H., CHANG H.L. Conversion of fly ash into zeolites for ion-exchange applications. Mat. Let. 28, 263, 1996.
  • 24. MURAYAMA N., YAMAMOTO H., SHIBATA J. Mechanism of zeolite synthesis from coal fly ash by alkali hydrothermal reaction. Int. J. Miner. Pocess. 65, 1, 2002.
  • 25. ADAMCZYK Z., BIAŁECKA B. Hydrothermal Synthesis of Zeolites from Polish Coal Fly Ash. Pol. J. Environ. Stud. 14, 713, 2005.
  • 26. SUCHECKI T. Zeolites from fly ash. Receiving and application in environmental engineering. Inżynieria środowiska. Wydawnictwo Ossolineum, Wrocław, 2005 [In Polish].

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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