摘要
采用厌氧水解(酸化)塘─好氧塘、兼性塘─好氧塘、好氧塘─好氧塘三种工艺,分别对乐果废水进行了处理。试验结果表明,第一种工艺处理效果优于其它两种工艺。在本试验条件下,其COD,BOD5,乐果的平均去除率分别为74.3%、85.8%和91.0%,平均出水COD在240mg/L左右。通过综合分析得出,厌氧水解(酸化)塘─好氧塘工艺处理乐果废水比普通生物稳定塘的水力停留时间短,处理效果稳定,其机理可能是由于水解塘在去除一定量有机物的同时,将不溶性有机物转变为可溶性有机物,为后续好氧塘的处理创造了有利条件,因而缩短了反应时间。
Based on the flowing simulating test, three technological flowage including apaerobic hydrodytic Pond-aerobic (AH-A) pond,facufative, pond,aerobic (F-A ) pond and aerobic (A- A) pond-aerobic pend are used to treat Rogor wastewatpr.The results shook that the technology Of AH-A is superior to the others. When the hydraulic detention time in anaerobic hydrodytic pond is five hours and that in the aerobic pond is three days, the rereoval efficiencies Of COD,BOD5 and Rogor are 74. 7%, 85. 8% and 91. 0%, respectively. The effluent concentration of COD is about 240 mg/L.Through a comprehensive analysis on the experimental results,it is obtained that the detention time in AH-A pond is shorter than that in ordinary biological stabilization ponds in treating Rogor wastewater,and the treatment efficiency is stable The fundamental principle may be that while some organic compounds are removed some unsolvable organic compounds are also transformed into soluable compounds in the anaerobic hydrodytic pond,which creats favourable conditions for the. following treatment in the aerobic .pond and shortens the reaction time.
出处
《水处理技术》
CAS
CSCD
北大核心
1994年第5期299-304,共6页
Technology of Water Treatment
基金
陕西省自然科学基金
关键词
稳定塘
厌氧水解
乐果废水
废水处理
stabilization pond
anaerobic hydrodytic
Rogor wastewater
