Speciation of PM_2.5 Released from Iron Ore Sintering Process and Calculation of Elemental Equilibrium

抄録

The aim of this study was to elucidate the speciation of PM_2.5 and proportion of each typical speciation via calculation of chemical mass balance. The results from elemental and morphological analyses showed that PM_2.5 consisted of diverse components mainly including O, Fe, Ca, Al, Si, and trace elements K, Na, Pb, S, and Cl. These components mainly existed in spherical, cubic, polyhedral, flake-like and bulk-like particles. Through examining the chemical composition and distribution property of main components in typical particles, Fe, Ca and O were determined to present in the speciation of Fe₂O₃–CaO from melting process, while Al, Si and O existed in the speciation of xAl₂O₃-ySiO₂ from fuel fly ash. K, Na, Pb and Cl could exist in the speciation of KCl, NaCl and PbCl₂ respectively from chlorination reactions. Moreover, Ca, K, Pb, O and S could form sulfates of CaSO₄, K₂SO₄ and PbSO₄ respectively. Calculation of O, S and Cl equilibrium in PM_2.5 indicated that Fe₂O₃–CaO accounted for about 30.63%, xAl₂O₃-ySiO₂ accounted for about 7.02%, K(Pb/Na)Clx accounted for about 41.29%–49.77%, and K₂(Ca/Pb)SO₄ accounted for about 21.05%–12.57%.

(a) Molar ratio of calculated value to practical one; (b) Proportion of each typical speciation in PM_2.5.