1) aerating inner electrolysis
曝气内电解
1.
Based on the analysis of perfume wastewater, a combined technique of DAF-aerating inner electrolysis-UASB-biological contact oxidation was introduced to treat perfume wastewater.
文章对香料废水进行了分析研究,主体工艺采用曝气内电解-固定化UASB-两级接触氧化对某化工有限公司香料废水进行处理,经监测出水水质达到《污水综合排放标准》(GB8978-1996)中的一级标准,并用曝气内电解专利深处理香料废水,可较大的降低处理运行成本。
2) micro-aeration internal electrolysis
微曝气内电解
1.
Pretreatment of wastewater from DSD acid production by dynamic mixing micro-aeration internal electrolysis process;
动态混合微曝气内电解预处理DSD酸生产废水
3) Aerated micro-electrolysis
曝气微电解
1.
Pretreatment of pyrimidine wastewater by aerated micro-electrolysis and flocculation technique;
曝气微电解-絮凝工艺预处理嘧啶废水
2.
The results show that the optimal pH value for removing strong organic solvents by aerated micro-electrolysis and catalytic electro-oxidation technology are 2 to 3 and 5 to 6 respectively,and the optimal hydraulic retention times(HRT) are 120 min and 90 to 120 min respectively.
结果表明,曝气微电解和催化电氧化技术去除强有机溶剂的最佳pH值分别为(2~3)、(5~6),最佳水力停留时间分别为120、(90~120)m in;高级氧化技术可大大提高废水的可生化性,将B/C值从0。
4) iron-carbon aeration microelectrolysis
铁炭曝气微电解
1.
The pretreatment of cellulose zymolytic wastewater with iron-carbon aeration microelectrolysis method was researched by orthogonal experiment.
采用正交实验法对铁炭曝气微电解预处理纤维素发酵废水进行了研究,最佳工艺条件为pH4—5,铁屑用量150g·l-1,铁炭比1∶2,反应时间1h,曝气量30ml·min-1。
5) blast micro-electrolysis
曝气式微电解
1.
And bring forward using the blast micro-electrolysis technics to disposal this kind of wastewater.
文章通过对电镀前处理废水试验研究,采用正交实验和单因素试验优化工艺参数,提出曝气式微电解工艺处理该类废水,并获得最佳工艺参数:铁炭比1︰1,pH 3。
6) aerate ferric-carbon micro-electrolysis
曝气铁炭微电解
1.
The results indicated that process of aerate ferric-carbon micro-electrolysis method and hydrolysis acidification and aerobic biological treatment and ozone oxidization were effective and practical for fluorescent whitening agent wastewater,by which when the COD concentration of the influent was about 5 620 mg·L-1,the TOC lowered 68.
采用"曝气铁炭微电解-水解酸化-好氧生物处理-臭氧氧化"工艺对荧光增白剂生产废水进行了处理。
补充资料:微气泡曝气
分子式:
CAS号:
性质:气泡曝气方法之一。活性污泥法废水生物处理过程中,在曝气池底部或邻近底部设置多孔陶质扩散器进行曝气,扩散器上微孔孔径约为50μm,可产生直径0.2~0.3mm的微小气泡。操作时,输入的空气需先经过滤,以防扩散器发生堵塞。由于产生微气泡的扩散器浸没深度较大,而且扩散器微孔阻力增加,因此,所需鼓风压力较大。其充氧效率一般为10%~30%。
CAS号:
性质:气泡曝气方法之一。活性污泥法废水生物处理过程中,在曝气池底部或邻近底部设置多孔陶质扩散器进行曝气,扩散器上微孔孔径约为50μm,可产生直径0.2~0.3mm的微小气泡。操作时,输入的空气需先经过滤,以防扩散器发生堵塞。由于产生微气泡的扩散器浸没深度较大,而且扩散器微孔阻力增加,因此,所需鼓风压力较大。其充氧效率一般为10%~30%。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条