纺织印染废水水质变化大、色度高,直接生物处理难度大。
Water quality of printing and dyeing wastewater changes quickly, with high colority and difficult to be degraded only by bio-treatment.
采用改良的水解酸化-生物接触氧化工艺处理纺织印染废水。
Textile printing and dyeing wastewater is treated by improved hydrolytic acidification-biological contact oxidation process.
介绍了H/O工艺处理高浓度棉布纺织印染废水的工程应用。
Treatment of textile printing and dyeing wastewater with H/O technology is described.
采用混凝沉淀 -酸化水解 -生物接触氧化工艺处理纺织印染废水。
The application of coaqulated subsidence acidification hydrolization biological contact oxidation process to treating textile dyeing wastewater was presented.
研究了用湿式空气氧化法处理纺织印染废水的过程,并建立了相应的动力学模型。
The wet air oxidation of printing and dying wastewater and its reaction kinetics were investigated in the present work.
该工艺与常规的纺织印染废水处理工艺相比,占地面积小,操作费用低,运行稳定。
The performance is stable, and its operation cost and used field area is less than that of conventional treatment process.
水解酸化———生物接触氧化联合处理工艺处理高浓度纺织印染废水,是被实践证明了的切实可行的方法。
Hydrolysis acidification-biological contact oxidation process is applied to treat textile-dyeing wastewater, This process is proved to be one of the new water treatment processes.
实验针对常州某印染厂棉纺织印染前处理车间废水水质特性,选取钢铁厂废酸作为混凝剂对棉纺织印染前处理废水进行了混凝试验研究。
According to the character of the cotton dyeing pretreatment wastewater from a dyeing pretreatment plant, the waste acid from steel plant were chosen to do the coagulation-sedimentation experiment.
着重介绍了AABC流程在纺织印染和制衣行业洗衣废水处理中的应用。
In this paper, the application of AABC process in textile and garment industries is presented with practical examples.
作为纺织印染大国,如何实现印染废水中水回用是中国面临的重要课题。
As a large country having textile dyeing and printing industry, how to realize the recycle of regenerated water of printing and dyeing wastewater is an important research subject to China.
作为纺织印染大国,如何实现印染废水中水回用是中国面临的重要课题。
As a large country having textile dyeing and printing industry, how to realize the recycle of regenerated water of printing and dyeing wastewater is an important research subject to China.
应用推荐