| Field emission scanning electron microscopy (FESEM) and scanning electron microscopy with energy dispersive X-ray detector (SEM-EDX) were used to study the four aerosol samples collected in Beijing air during the fog and non-fog episodes in winter. Size-distribution of mineral particles in fog sample displayed two major peaks at the size range of 0.1~0.3 μm and 1~2.5 μm. EDX analyses indicated that the major chemical compositions varied greatly in the individual mineral particles of the fog and non-fog episodes, especially the sulfur. A total of 9 different mineral categories were classified, namely, “Si-rich”, “Ca-rich”, “S-rich”, “Fe-rich”, “Mg-rich”, “Al-rich”, “Ti-rich”, “K-rich” and “Cl-rich”. About 55% of the “Ca-rich” in the fog samples comprised of Ca(50%±1.2%)and S(37%±1.6%)and about 72% of the “S-rich” comprised of S(44%±1.5%) and Ca(33%±2%), illustrating that particles with abundant sulfur were also enriched with abundant calcium. It is suggested that the “Ca-rich” alkali minerals could alleviate acidity of the fog water in Beijing air. The S/Ca mean ratio of mineral particles in the fog sample was 6.11, being 8 times higher than the S/Ca mean ratio of the non-fog samples (0.73). This result showed that sulfuration on the surfaces of aerosol particles was extremely severe, and that the conversion efficiency from SO2 to sulfates was relatively high. |
