The semi-dry flue gas desulfurization technology is widely used by coal-fired power plant. Desulfurization ash produced by semi-dry flue gas desulfurization, which consist CaSO3, CaCO3, Ca (OH) 2, CaSO4 and so on. It will bring new environment pollution if not been disposed properly. Building material industry is the main field in terms of the comprehensive utilization of desulfurization ash. While hazardous elements especial S and Hg may be released in the condition of temperature changes in the process of desulfurization ash utilization, causing second environment pollution. Combined with the research achievement of preparing autoclaved brick before, the content of S and Hg in raw materials and autoclaved brick were studied during the thermal utilization process in this article. The thermal stability of calcium sulfite was analyzed by the chemical reagent calcium sulfite. The results shown that calcium sulfite only lost crystal water whether in oxygen or air when the temperature is below 450°C, calcium sulfite was completely oxidized to calcium sulfate when the temperature is 475 °C in oxygen or 515°C in air. The contents of S and Hg which existed in desulfurization ash were 7.03%wt and 460μg/kg, respectively. The contents of S and Hg in autoclaved brick which made by desulfurization ash mainly were 5.16%wt and 450μg/kg, respectively. The results shown that the content of elements S and Hg in raw materials and autoclaved brick were roughly the same, which indicated that S and Hg no escape in the process of preparing autoclaved brick. The research provided a certain references for the comprehensive utilization of semi-dry flue gas desulfurization ash in the condition of heat and humid.
Study of oxidation of calcium sulfite in flue gas desulfurization by pore-type surface dielectric barrier discharge