Recently, widely used method for recycling fly ash waste of coal collected from the electrostatic precipitators is the synthesis of zeolites from this waste material. Subsequently, zeolites can be used for a variety of purposes, but one that is attracting growing attention is the use of their porous structure for detection of volatile organic compounds. In this study fly ash of lignite coal collected from the electrostatic precipitators of one of the biggest TPPs in Bulgaria was used as a raw material for synthesis of zeolites of Na-X type by ultrasonic-assisted double stage fusion-hydrothermal alkaline conversion.
In order to reduce the size of the synthesized zeolites and thus to improve the quality of the composite thin films, as well as to study the influence of zeolites’ sizes on the sensing properties, the synthesized zeolites were wet-milled at three different durations. All zeolite powders were studied from the viewpoint of their surface morphology and structure via scanning electron microscopy and X-ray diffraction, respectively. The porosity and particle size of Na-X zeolites prior to and after milling were investigated by N2-physisorption and Dynamic Light Scattering, respectively.
Zeolites thus obtained (milled and not-milled) were used to produce composite thin films based on sol-gel niobium pentoxide (Nb2O5). A complete optical characterization of the thin films was made and their sensing properties with respect to acetone vapor were studied. The change in the reflection coefficient ∆R of the films was calculated from measured reflectance spectra of the films prior and after exposure to the selected vapors.
Acknowledgments
Research equipment of Distributed Research Infrastructure INFRAMAT, part of Bulgarian National Roadmap for Research Infrastructures, supported by Bulgarian Ministry of Education and Science was used in this investigation.