Abstract
In this paper, we present the possibility of using fly ash to produce synthetic zeolites. The synthesis class F fly ash from the Stalowa Wola SA heat and power plant was subjected to 24 h hydrothermal reaction with sodium hydroxide. Depending on the reaction conditions, three types of synthetic zeolites were formed: Na-X (20 g fly ash, 0.5 dm3 of 3 mol · dm−3 NaOH, 75 °C), Na-P1 (20 g fly ash, 0.5 dm3 of 3 mol · dm−3 NaOH, 95 °C), and sodalite (20 g fly ash, 0.8 dm3 of 5 mol · dm−3 NaOH + 0.4 dm3 of 3 mol · dm−3 NaCl, 95 °C). As synthesized materials were characterized to obtain mineral composition (X-ray diffractometry, Scanning electron microscopy-energy dispersive spectrometry), adsorption properties (Brunauer-Emmett-Teller surface area, N2 isotherm adsorption/desorption), and ion exchange capacity. The most effective reaction for zeolite preparation was when sodalite was formed and the quantitative content of zeolite from X-ray diffractometry was 90 wt%, compared with 70 wt% for the Na-X and 75 wt% for the Na-P1. Residues from each synthesis reaction were the following: mullite, quartz, and the remains of amorphous aluminosilicate glass. The best zeolitic material as characterized by highest specific surface area was Na-X at almost 166 m2 · g−1, while for the Na-P1 and sodalite it was 71 and 33 m2 · g−1, respectively. The ion exchange capacity decreased in the following order: Na-X at 1.8 meq · g−1, Na-P1 at 0.72 meq · g−1, and sodalite at 0.56 meq · g−1. The resulting zeolites are competitive for commercially available materials and are used as ion exchangers in industrial wastewater and soil decontamination.
Highlights
Combustion and energy production in conventional dust boilers creates two types of wastes: energy slag and fly ash
It has been reported that approximately 750 million tonnes of coal fly ash (CFA) has been produced globally, from which only on average only of 25 % is utilized, the rest is disposed as a waste causing yet another environmental concern (Blissett and Rowson 2012)
To obtain a variety of zeolitic materials from fly ash using the synthesis methods proposed by Derkowski et al (2006) and Franus (2012b), a series of experiments were performed according to the following chemical reaction: fly ash þ x mol dm−3NaOH ÀÀtiÀmÀeÀÀ> zeolite þ residuum ð1Þ temperature where x is the concentration of NaOH solutions and x=3 or 5 depending on obtained materials
Summary
Combustion and energy production in conventional dust boilers creates two types of wastes: energy slag (furnace) and fly ash. It has been reported that approximately 750 million tonnes of coal fly ash (CFA) has been produced globally, from which only on average only of 25 % is utilized, the rest is disposed as a waste causing yet another environmental concern (Blissett and Rowson 2012). Composition of CFA is complex and varies greatly (Vassilev and Vassileva 2005), its utilization has been receiving a great deal of attention and coal fly ash is one of the most widely studied pollutants (Mehra et al 1998). Fly ash constitutes 65 % of the total waste production from coal combustion (ECOBA 2009). Less than half is subjected to treatment by re-use (Matsi and Keramidas 1999; Swanepoel and Strydom 2002; Majchrzak-Kuceba 2011; De la Varga et al 2012; Sumer 2012; Yang et al 2012), including:
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