Research Article Open Access

Synthesis of Zeolite from Aluminium Etching By-Product: the Effect of Reaction Temperature on Crystallinity and Its CO2 Adsorption Property

Kanokorn Hussaro, Supaporn Douglas and Noppadon Cheamsawat

Abstract

The synthesis of zeolite from the by-product of aluminium etching process was investigated. The starting by-product reactant had high aluminium content, 92.17% wt. as Al2O3. Si and Na compositions were adjusted by the addition of sodium metasilicate, in the hydrogel process.The reaction time was fixed at 1 h., while the stirring speed was controlled at 200 rpm. and the temperature varied in the range of 60-90°C. The mole ratio of the starting reactants were also fixed at 2 (SiO2/Al2O3 = 2, Na2O/ Al2O3 = 2). The product properties were found to depend on reaction temperature. The better zeolite product in the range of these experiments was found at 90°C, containing 75% crystallinity as referred to the commercial zeolite A. The percentage crystallinity of the synthesized zeolite was found to increase with increasing reaction temperature. Analysis of the XRay diffraction (XRF) and FT-IR spectra confirmed that the synthetic zeolite was of type A. The CO2 (99.5% purity) absorption test was performed with the zeolite sample synthesized at 90°C, using N2 (99.9% purity) as carrier at total flow rate of 15 cc min-1, resulting in 0.00386 mole of CO2 adsorption g-1. The study showed the potential of developing the by-product of aluminium etching process into a higher value added product of zeolite A. Further economic study of the process was suggested.

American Journal of Environmental Sciences
Volume 4 No. 6, 2008, 666-674

DOI: https://doi.org/10.3844/ajessp.2008.666.674

Submitted On: 15 May 2008 Published On: 31 December 2008

How to Cite: Hussaro, K., Douglas, S. & Cheamsawat, N. (2008). Synthesis of Zeolite from Aluminium Etching By-Product: the Effect of Reaction Temperature on Crystallinity and Its CO2 Adsorption Property. American Journal of Environmental Sciences, 4(6), 666-674. https://doi.org/10.3844/ajessp.2008.666.674

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Keywords

  • Aluminium etching by product
  • hydrogel process
  • zeolite