采用内电解法处理偶氮染料废水。
The wastewater containing azo dye was treated by internal electrolysis.
实验结果为催化铁内电解法提供了理论依据。
The results provide a theoretical basis for the catalyzed iron inner electrolysis method.
催化铁内电解法是一种新型的有效处理废水的方法。
Catalyzed iron inner electrolytic method can be applied to industrial wastewater treatment.
对催化铁内电解法处理硝基苯废水降解动力学特性进行了研究。
The degradation kinetics of the wastewater containing nitrobenzene in the catalyzed Fe-Cu process was studied.
催化铁内电解法已经广泛应用于高色度、难降解工业废水的预处理中。
Iron inner electrolysis process had been used to pretreat high chroma and refractory industrial wastewater widely.
介绍了高含碳金属化球团的制备过程及其处理废水的机理-铁碳内电解法。
The preparation of high carbon-bearing pellets and mechanism of the iron inner electrolysis treatment are introduced.
对催化铁内电解法中铁表面腐蚀历程以及电化学还原过程进行了初步探索。
The process of the surface corrosion in iron and electrochemical reduction was been studied.
在研究铁屑内电解法基本原理的基础上,研究各工艺因素对处理效果的影响,并找出最佳反应条件。
On the basis of the basic principle of iron chip inner-electrolysis, the effects of technological factors on treatment results were studied, and the best reaction conditions were found.
结果表明,在中性和弱碱性条件下,催化铁内电解法对硝基苯废水的处理效果明显优于铁屑内电解法。
The results indicate that the catalyzed iron inner electrolysis method excels considerably the traditional method in performance under neutral and alkaline conditions.
结果表明,硝基苯能在铜电极上直接发生得电子还原反应,此即催化铁内电解法反应机理的显著特点。
The results indicated that direct reduction of nitrobenzene took place on copper cathode, i. e. the typical catalyzed iron inner-electrolysis characteristics.
介绍了内电解法在制革废水处理中的运行机理、工艺流程以及在制革废水处理中的研究应用现状及研究新进展。
The principle of liquid membrane technology and its application in pharmaceutical chemical engineering, extraction of rare metal, trace analysis and treatment of waste water are discussed in detail.
采用微曝气催化铁内电解法预处理对进水起到了缓冲和水质调节的作用,可提高整个系统的抗冲击负荷能力和运行稳定性。
The CIIE process can serve to adjust the influent quality and alleviate shock loading, so as to improve the shock resistance capacity and stability of operation in the whole system.
采用微曝气催化铁内电解法预处理对进水起到了缓冲和水质调节的作用,可提高整个系统的抗冲击负荷能力和运行稳定性。
The CIIE process can serve to adjust the influent quality and alleviate shock loading, so as to improve the shock resistance capacity and stability of operation in the whole system.
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