摘要:
采用水解酸化—好氧氧化—砂滤串联工艺处理维生素B1制药废水,试验分别考察了pH、温度、滤速、溶解氧以及污泥负荷对整个工艺处理效果的影响。结果表明,原废水BOD/COD约为0.14,属难生物降解废水,经水解酸化处理后,出水BOD/COD可达0.43,可生化性大大提高。维持好氧氧化工段进水COD质量浓度和MLSS的COD负荷分别在3000mg/L和0.4~0.5kg/(kg.d)时,系统运行稳定性好,COD去除率均在80.0%以上。
关键词:
维生素B1生产废水,
水解酸化,
好氧氧化,
砂滤
Abstract:
In this experiment, hydrolysis acidification-aerobic oxidation-filtration biotreatment of the wastewater fromvitamin B 1 production has been carried out tostudythe effects ofpH, the temperature, dissolved oxygen, sludge load on the whole technology. The result shows that the BOD/COD ratio of the wastewater is about 0.14, which means the wastewater is difficult tobe biodegraded. After hydrolysis acidification pretreatment,the BOD/COD ratiogoes up to 0.43, and the biodegradabilityis improved significantly. When the CODis kept at about 3 000 mg/Land MLSSload is kept between 0.4-0.5 kg/(kg·d), the systemshows good stability, and the removal rate is about 80.0%.
Key words:
wastewater from vitamin B 1 production,
hydrolysis acidification,
aerobic oxidation,
filtration
中图分类号:
李亚静, 孙力平, 张焱. H/O工艺处理维生素B1生产废水影响因素研究[J]. 工业水处理, 2006, 26(3): 68-70.
Li Yajing, Sun Liping, Zhang Yan. Influential factors of using H/O process to treat the wastewater from vitamin B1 production[J]. INDUSTRIAL WATER TREATMENT, 2006, 26(3): 68-70.