1、 - 1 - 摘 要 针对印染废水的水质特点,本文采用水解酸化与接触氧化相结合的生化工 艺对废水进行处理。水解酸化和好氧接触设计停留时间均为10h,运行结果表明, 水解酸化单元可有效提高废水的可生化性,废水经水解酸化后BC值可从02 03提高至04左右,有效保证了好氧接触处理效果。根据环保监测结果,COD 一般在80mgL,BOD,在10mgL以下,COD去除率80以上,BOD,去除率90 以上。 废水处理厂设计规模 3500m 3/d,其现今的设计水质水量为 Q=3500m 3/d COD=500600mg/L BOD5=250mg/L PH=1011 SS=300 /l 色度400倍。经处
2、理后,应达到下列出水水质:COD100mg/L, BOD25mg/L,色度40倍,pH在69,SS70mg/L, 达污水排放一级标准。 经设计可知COD=88.5%,BOD=96%,SS=98.6%,色度89.5%。 经技术经济分析,此方案投资总额 430万元,废水处理成本为0.97 元/ m3,有 着良好的经济效益和社会效益。且节约用地、提高绿化、降低能耗的理念在设计 中得到充分的实践,符合新时代环保的要求。 关键词: 纺织印染废水,水解酸化,生物接触氧化 - 2 - ABSTRACT Aiming at the characteristics of printing and dyeing
3、wastewater, a biochemical technological process of hydrolytic acidification integrating contact oxidation was applied to treatment of the printing and dyeing wastewater; the HRT for the both were 10h respectively. The operating results showed the hydrolytic acidification section could improve the bi
4、ochemical degradability effectively; after hydrolytic acidification, the wastewaters B/C value could rise to about 0.4 from 0.2-0.3, effectively ensuring the treating effect of aerobic contact. According to the monitoring results by the department of environmental protection, COD and BOD5 were below
5、 80mg/L and 10mg/L respectively; COD and BOD5removal rates were over 80% and over 90% respectively. The liquid waste processing factory designs scale3500 m 3/d, its raw water fluid matter according to square and present production scale in factory and development request, after with factory square,
6、native environmental protection section consultation certain following design fluid matter amount of water: Q=3500m 3/d COD=600mg/L BOD5=250mg/L PH=1011 SS=300 /l Color degree400times. After handles, should attain the following a water fluid matter: COD 100mg/L,BOD25mg/L,Ph=69,SS70mg/L,Color degree40 times, reaching the dirty water exhausts a class standard. Through design thenCOD=88.5%,BOD=96%,SS=98.6%,color is a 89.5%.Was analyzed by technique economy, th
