关键词: 炼油碱渣, 含盐污水, 硫化物, 挥发酚, 技术开发

Abstract: Aiming at the characteristics of high content of sulfur and phenolic pollutants and poor biochemical properties of high-concentration wastewater from oil refinery, a combined technology of biological desulfurization, Fe-C micro-electrolysis, biological phenol removal, adsorption-biodegradation process (AB method) and internal recycle biological aerated filter (BAF) was developed. The results showed that dissolved oxygen of the bio-reactors of biological desulfurization, biological removal of phenol, AB method and internal recycle BAF were controlled at 2.0 mg/L, 2.0~2.4 mg/L, 0.6~1.0 mg/L in section A, 1.5~2.0 mg/L and ≥2.4 mg/L in section B by AB method respectively, hydraulic retention time (HRT) in 8~12, 8~12, 5~6 and 2.5~3.0 h respectively, Fe/C mass ratio of the Fe-C micro-electrolysis at 3~4, pH value in 3.0~3.8, and reaction time for 30 min, the average mass concentrations of sulfide, volatile phenol, COD, ammonia nitrogen and oil in the wastewater were reduced from 705, 225, 4333, 38.6 and 30.0 mg/L to 0.3, 0.07, 80.5, 11.6 and 2.9 mg/L respectively, thus meeting the national discharge standards.

Key words: refinery alkaline residue, saliferous sewage, sulfide, volatile phenol, technological development