本文研究探讨了微电解反应过程中硝基苯降解的情况,这是固液界面过程。
This paper has studied and discussed the reducing of nitrobenzene in the microelectrolysis reaction course, which is a solid-liquid interface course.
以工业级硅酸钠为电解液,铝材在交流电压作用下进行等离子微弧氧化反应,电压升高,膜厚增大。
Using commercial sodium silicate as electrolyte, aluminum surface was treated with plasma micro-arc oxidation under alternate current, film thickness increased with the increase of voltage.
文中就微电解氧化还原反应的机理、选材、室内试验结果及与其它处理方法的对比等方面进行了探讨。
This article discusses the mechanism, select material, indoor testing result of microelectrode oxidation-reduction and the comparison with other treating ways.
再以MBBR为生物反应器,进一步处理经过铁炭微电解预处理的腈纶废水。
Then, the pretreated acrylic fiber wastewater is further treated with MBBR as a biological reactor.
再以MBBR为生物反应器,进一步处理经过铁炭微电解预处理的腈纶废水。
Then, the pretreated acrylic fiber wastewater is further treated with MBBR as a biological reactor.
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