ALR-BAC组合工艺处理溴氨酸废水研究

采用气升式环流反应器(airlift loop reactor,ALR)-生物活性炭(biological activated carbon,BAC)组合工艺处理溴氨酸(bromoamine acid,BAA)废水.结果表明,以SBR方式运行的ALR,在保持进水溴氨酸浓度650 mg.L-1时,反应器稳定运行1个月,溴氨酸色度和COD去除率分别达到90%以上和50%左右,悬浮态菌沉降性能好;当进水溴氨酸浓度>200 mg.L-1时,其脱色产物继续曝气时极易发生自氧化而形成难以生物降解的黄色中间产物.后续的BAC处理体系可有效抑制溴氨酸脱色产物的自氧化,并使其不断被生物降解;当BAC体系中无外加硫酸盐时,Br-和SO42-的浓度随着进水COD的降低而不同程度地增加,最终Br-和SO42-的释放率分别达到72.2%和66.9%,COD去除率为85.7%.

Treatment of Bromoamine Acid Wastewater by Combined ALR-BAC Process

Combined ALR-BAC was used to treat bromoamine acid wastewater. The results showed that the ALR system could run steadily for over 1 months at the BAA concentration 650 mg·L~(-1) after one-month acclimation. the decoloration rate of BAA was reached to about 90% within 12 h, and the removal rate of COD was about 50%,the precipitation performance of the suspended microorganism war good. When the influent bromoamine acid concentration was above 200 mg·L~(-1),the decolorization products of BAA were easy to undergo auto-oxidation and the yellow intermediate products which were difficult to biodegrade were formed. The BAC process could inhibit the auto-oxidation of the decolorization products effectively, and the decolorization products could be biodegraded gradually. When there were no added sulphate, the concentrations of Br~- and SO_4~(2-) were increased as the COD concentration reduced. Ultimately, the release rates of Br~- and SO_4~(2-)were 72.2% and 66.9%.the COD removal efficiency was about 85.7%.