采用内电解法处理偶氮染料废水。
The wastewater containing azo dye was treated by internal electrolysis.
同时,一些偶氮染料废水中也存在铬离子。
Moreover, some azo dyestuff wastewater also bears chromium compounds.
第二部分淀粉-偶氮染料接枝共聚物的合成及表征。
Part Il:The synthesis and structural characterization of Starch-Azo dyes graft copolymers.
偶氮染料广泛应用在纺织印染、造纸印刷等行业中。
Azo dyes are extensively used in textile dying, paper printing and other industries.
尼龙粘扣带不含偶氮染料,常备108种颜色的现货。
Nylon fastening tapes with AZO free are available for108 colours.
研究了单偶氮染料活性艳红K - 2g的极谱伏安行为。
Polarographic and voltammetric behaviors of Reactive Brilliant Red K-2G was studied.
综述了目前降解偶氮染料的细菌以及偶氮还原酶的研究进展。
Recent advances in azo-dye-degrading bacteria and azo reductase were reviewed.
本文研究了偶氮染料对藻类生长及若干生理代谢过程的影响。
This paper studied the effect of azo-dye on the growth and other physiological processes of algae.
同时介绍了用薄层色谱分析法检测纺织品中禁用偶氮染料的方法。
Meanwhile, a thin-layer chromatography for detecting those prohibited azo dyes in textiles is presented.
实验发现偶氮染料分子在复合电极表面的吸附量与反应速度密切相关。
It was found that the oxidation rate of the azo dye molecules is related to its adsorption amount on the surface of composite electrode.
通过甲基橙模拟偶氮染料废水,考察了电絮凝法处理印染废水的效果。
It has been raised a new method, electrocoagulation in disposition of gas-field wastewater.
偶氮染料可引起一些人过敏反应,比如荨麻疹,血管性水肿和胃的问题。
Azo dye can, in some people, cause allergic reactions such as urticarial, angioedema and gastric problems.
在碘钨灯照射下,电镀锌板对偶氮染料和氯代有机物的还原降解速率倍增。
Reducing degradation rates of azo dyes and chloroorganics by the electrogalvanizing zinc plate were greatly increased under the irradiation of an iodinetungsten lamp.
初步探讨了白腐真菌对偶氮染料活性艳红x - 3 B废水的脱色效果。
The decoloration effect of wastewater containing azo dye (reactive brilliant red X-3B) by white rot fungus was primarily discussed.
优选地,阳离子染料选自偶氮染料、偶氮甲碱染料、次甲基染料和?吨染料。
The cationic dye may be chosen from azo dyes, azomethine dyes, methine dyes and xanthene dyes.
本文对偶氮还原酶的醌还原活性及其在偶氮染料介导脱色中的应用展开了研究。
Quinone-reducing activity of azoreductases and their application in mediated decolorization of azo dyes were studied in this dissertation.
获得对偶氮染料具有良好降解效果的微生物材料对于相关研究便显得尤其重要。
The method of biodegradation was most economical and effective in the methods of dyes degradation, and the effective microorganism material for degradation was very important.
本发明涉及一种偶氮染料丙烯酸酯、其共聚乳胶涂料染色水性粘合剂及其制备方法。
The invention relates to azo dye acrylic ester, and copolymer emulsion coating dyeing water-borne binder and a preparation method thereof.
染料废水,特别是偶氮染料废水,如果直接排放会对当地水环境造成不可估量的损失。
If dyeing wastewater, especially azo dye wastewater is let, it will seriously do harm to local aquatic environment.
降解了几种不同结构的偶氮染料,并通过改变CWPO的反应条件推断了其催化反应机理。
Azo dyes of several different structures were degraded, and the reaction conditions were changed to study the reaction mechanism of CWPO.
实际测量了一种有机光盘存储记录材料偶氮染料掺杂薄膜的时间分辨荧光光谱和荧光寿命。
The data of the time resolved fluorescent spectra and fluorescent life time of an organic optical disk named the azo dye doped thin film are given.
由于偶氮染料光致异构现象,这种体系体现出很多独特的性质,且用现有理论无法进行解释。
Because of the photoisomerization of azo dyes, this system shows many unique characteristics, which could not be explained by existing theories.
首先用偶合组分上带n -羟乙基官能团的偶氮染料为原料经丙烯酰化反应,得到发色单体。
First, the azo dye with N-hydroxyethyl functional group in coupling components is taken as the raw material to have acryloyl reaction, to obtain hair color monomer.
本研究采用该菌对偶氮染料的生物降解、降解途径与机理以及腐殖质对其生物降解的影响进行了研究。
The paper studied the biodegradation of azo dyes, the degradation route of azo dyes and degradation mechanism by Shewanella cinicaD14T.
本文介绍了近年来国内外对于偶氮染料光致褪色的研究进展,综述了偶氮染料光褪色与偶氮键断裂机理。
Recent research progresses on photofading of azo dyes at home and abroad was introduced, and the photofading mechanisms at azo bond were reviewed.
实验结果表明,藻对多种偶氮染料具有一定的降解作用,其降解程度与染料的结构和藻的种类等因素有关。
It was observed that algae can decolorize most azo-dyes to some extent, and the decolorization is dependent on several factors such as the structure of dye and species of algae.
实验结果表明,藻对多种偶氮染料具有一定的降解作用,其降解程度与染料的结构和藻的种类等因素有关。
It was observed that algae can decolorize most azo-dyes to some extent, and the decolorization is dependent on several factors such as the structure of dye and species of algae.
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