doiSerbia

Room temperature zeolitization of boiler slag from a Bulgarian thermal power plant

Pascova Radost D. (Bulgarian Academy of Sciences, Institute of Physical Chemistry “Rostislaw Kaischew” Sofia, Bulgaria)
Stoyanova Valeria B. (Bulgarian Academy of Sciences, Institute of Physical Chemistry “Rostislaw Kaischew” Sofia, Bulgaria)
Shoumkova Annie S. (Bulgarian Academy of Sciences, Institute of Physical Chemistry “Rostislaw Kaischew” Sofia, Bulgaria)

A simple and cost-effective method was applied for the synthesis of zeolite composites utilising wet bottom boiler slag from the Bulgarian coal-fired thermal power plant “Sviloza”, near the town of Svishtov. The method consisted of a prolonged alkali treatment at room temperature of this waste. Experimental techniques, such as scanning electron microscopy, energy-dispersive X-ray and X-ray diffraction analyses, are employed to characterize the initial slag and the final products with respect to their morphology, and elemental and mineral compositions. The composites synthesized in this way contained two Na-type zeolite phases: zeolite X (type FAU) and zeolite Linde F (type EDI). The zeolited products and the starting slag were tested as adsorbents for a textile dye (Malachite Green) from aqueous solutions. In comparison with the initial slag, the zeolite composite possessed substantially better adsorption properties: it almost completely adsorbs the dye in much shorter times. The results of this investigations revealed a new, easy and low cost route for recycling boiler slag into a material with good adsorption characteristics, which could find different applications, e.g., for purifying polluted waters, including those from the textile industry.

Keywords: waste recycling, zeolite X, zeolite linde F(Na), dye removal, adsorption