Li Jun, Zhang Zhen-jia, Li Zhi-rong, Huang Guang-yu, Abe Naoki
School of Environmental Science and Engineering, Shanghai Jiao Tong University, China.
J Environ Sci (China). 2006;18(4):654-9.
The distillery wastewater of Guangdong Jiujiang Distillery, which is characteristic of containing high organic matters and rich total nitrogen, was treated by a combination of methane fermentation and denitrification/nitrification processes. 80% of COD in the raw wastewater was removed by methane fermentation at the COD volumetric loading rate of 20 kg COD/(m3 x d) using the expanded granule sludge bed (EGSB) process. However, almost all the organic nitrogen in the raw wastewater was converted into ammonia by ammonification there. Ammonia and volatile fatty acids (VFA) remaining in the anaerobically treated wastewater were simultaneously removed utilizing VFA as an electron donor by denitrification occurring in the other EGSB reactor and nitrification using PEG-immobilized nitrifying bacteria with recirculation process. An aerobic biological contact oxidization reactor was designed between denitrification/nitrification reactor for further COD removal. With the above treatment system, 18000-28000 mg/L of COD in raw wastewater was reduced to less than 100 mg/L. Also, ammonia in the effluent of the system was not detected and the system had a high removal rate for 900-1200 mg/L of TN in the raw wastewater, only leaving 400 mg/L of nitrate nitrogen.
广东九江酒厂的酿酒废水含有高有机物和丰富的总氮,采用甲烷发酵与反硝化/硝化工艺相结合的方法进行处理。在容积负荷为20 kg COD/(m3·d) 的条件下,利用膨胀颗粒污泥床(EGSB)工艺通过甲烷发酵去除了原废水中80%的COD。然而,原废水中几乎所有的有机氮在那里通过氨化作用转化为氨。利用厌氧处理废水中残留的氨和挥发性脂肪酸(VFA)作为电子供体,在另一个EGSB反应器中通过反硝化作用以及利用聚乙二醇固定化硝化细菌和循环工艺进行硝化作用,同时去除它们。在反硝化/硝化反应器之间设计了一个好氧生物接触氧化反应器,以进一步去除COD。通过上述处理系统,原废水中18000 - 28000 mg/L的COD降低到了100 mg/L以下。此外,系统出水未检测到氨,并且该系统对原废水中900 - 1200 mg/L的总氮具有较高的去除率,仅剩余400 mg/L的硝酸盐氮。
