脱色率
- 网络decolorization;Decolorization rate;Decoloration rate;decolourization ratio
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本文运用超重力均相催化臭氧化方法处理酸性红B模拟染料废水,考察了影响脱色率的几个主要因素,得出了适宜的操作条件。
This work investigated homogeneous catalytic ozonation of simulated Acid Red B wastewater in a rotating packed bed ( RPB ) . Several main factors which affected the decolorization were discussed and appropriate operating conditions were proposed .
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实验表明,脱色率随着旋转床转速和气体流量的增加而增加,随着液体流量和酸性红B溶液初始浓度的增加而减小,碱性条件有利于O3单独降解酸性红B。
The results showed that the decolorization increased with the increase of rotating speed and gas flow rate . The decolorization decreased with the increase of liquid flow rate and initial concentration of Acid Red B. Alkaline environment is favorable for O3 degradation .
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以甲基橙溶液模拟偶氮染料废水,探讨了在微波作用下,低浓度的甲基橙浓度、过氧化氢用量、溶液pH值、作用时间等因素对脱色率的影响。
Microwave assisted wet hydrogen peroxide oxidation method was used to treat azo dyes wastewater simulated by low concentration methyl orange .
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在优化条件下,采用悬浮态TiO2时,染料的脱色率为98%。
Over 98 % degradation by suspended TiO 2 are observed under optimal conditions .
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并讨论其脱色率、COD去除率及其机理。
The discoloration and COD removal rates of the treated water and its mechanism were discussed .
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再生利用两次后,损失率为2%,光催化降解罗丹明B的脱色率为90.56%;
In addition , the decoloring rate of catalysis degrading Rhodamine B is 90.56 % and the losing rate is 2 % , after regenerated 2 times ;
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研究废水初始浓度、催化剂投加量、废水初始pH值以及氧化助剂H2O2投加量,对降解脱色率的影响。
The effects of azo dye initial concentration , dosage of catalyst , solution pH and H_2O_2quantity were discussed .
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考察了甲基橙初始浓度、催化剂加投量、pH值、温度、光照强度、反应液体积等因素对脱色率的影响。
The effect of initial concentration of methyl orange , quantity of catalyst , pH value , temperature , light intensity and liquid volume were studied .
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介体HBT的加入对所有染料的脱色率都有显著的提高。
With the addition of HBT , decolorization rate increased significantly .
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生产实验中污水COD去除率为70%~90%,脱色率可达96%。
In production trial , COD removal and discoloration rates were 70 % ~ 90 % and 96 % respectively .
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活化粉煤灰用于实际印染工业废水处理,脱色率和COD去除率同样较高。
In practical treatment of textile effluent by activated fly ash , the decolorization and COD removal are also effective .
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PAM阳离子度为50%时,脱色率可达到90%以上,过多的阳离子会导致胶体颗粒重新稳定。
When the concentration of cation is 50 % , the decoloration rate is over 90 % .
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加入Fe3+,H2O2等其他物质可提高染料的脱色率。
Adding Fe ~ ( 3 + ), H_2O_2 and other catalyst can improve the decoloration rate greatly .
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反应后期pH基本不变;产品对活性大红溶液的净水处理结果较为满意,脱色率98.8%,COD的去除率为92%。
The product showed satisfactory results on removal of COD ( 92 % ) and decolourization of reactive brilliant red in water ( 98.8 % ) .
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结果表明以二氧化钛为光催化氧化剂直接处理分散大红RR染料,脱色率可达93%。
The results showed that the treatment effect of scarlet dyestuff could reach 93 % .
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结果表明,降解2h脱色率为91.7%。
The discoloring ratio of acid fuchsine can be as high as 91.7 % in 2 hours degradation .
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应用固定化细胞连续处理酸性红B溶液,当进水浓度为42.1ppm时,出水平均脱色率可达87%。
An immobilized cell column has been used for continuous treatment of an acid red B solution for 14 days , with an influent concentration of 42.1 ppm , the average removability was 87 % .
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以脱色率为主要考察指标,研究了纳米TiO2光催化氧化法处理三苯甲烷染料碱性紫5BN的最佳工艺条件。
The optimal processing conditions of photocatalytic oxidation in treating Methyl Violet 5BN by nano TiO_2 has been studied .
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印染废水通过铁屑滤床后,脱色率和COD去除率分别达95%和90%以上。
If dyeing-house waste water passes through iron chips filter , over 95 % and 90 % of co-lout and COD may be removed respectively .
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用脱色率及COD去除率对催化剂进行了性能评价,以XRD、IR及比表面积对样品进行了表征。
The capability of catalyst was evaluated by decolor rate and COD removal rate . The samples was described by XRD 、 IR and specific surface area .
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研究了pH值,反应温度,反应时间等因素对甲基橙脱色率的影响,确定了适宜的反应条件,同时确定了催化滤料再生方法。
The influence of pH value , reaction temperature , reaction time etc. factors on decolorization rate of methyl orange was studied to determine suitable reaction condition and regeneration method of catalytic filter material .
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高压脉冲放电协同臭氧氧化与臭氧氧化相比,脱色率提高了约10%,COD去除率提高了15.2%。
Compared with single ozonation , the combination of it with high-voltage pulsed discharge can increase 10 % of decoloration efficiency and 15.2 % of COD removal efficiency .
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水解酸化池&膜生物反应器处理后废水的脱色率和COD去除率分别为83%和97%;
After treated in the hydrolysis acidification pool and membrane bioreactor , the chroma and COD removal rate of the wastewater is 83 % and 97 % respsctively ;
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加入自由基捕获剂Na2CO3,使COD去除率明显下降,但脱色率变化不大。
The addition of radical scavenger Na_2CO_3 greatly decreases the COD removal efficiency , but the decoloration efficiency remains unchanged .
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在β-MnO2纳米棒、Mn2O3纳米棒、Mn3O4纳米粒子为催化剂条件下,分别研究了亚甲基蓝初始浓度、H2O2浓度、催化剂用量对亚甲基蓝脱色率的影响。
The influences of reaction conditions such as initial concentration of methylene blue , H2O_2 concentration and catalyst dosage on the decoloration efficiency of methylene blue are studied .
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TiO2的投加量对AO7溶液脱色率影响较大。
The quantity of TiO2 adding to the reactor affected decolour efficiency greatly .
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同时做了TiO2回收试验,结果表明,TiO2催化性能比较稳定,可重复使用,且脱色率及COD去除率较高。
At the same time , the recycling experiment of titania suggested that titania has higher COD_ ( Cr ) removal rate and decolor rate , and also be reused .
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结果表明,所制备的两性聚合物,对皮革染色废水的脱色率达92%以上。常温(25℃)条件下,合成产物对皮革染色废水脱色的较佳pH值为3~4。
The experimental results indicated that the polyampholyte flocculant exhibited an excellent properties in leather dyeing wastewater , with a decolorization ratio of 92 % under pH value of 3 & 4 and temperature at 25 ℃ .
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分别讨论不同氧化工艺、H2O2投加量和反应时间、pH值、废水的初始浓度对脱色率的影响。
The influence of different oxidation processing , added amount and reaction time-period of H2O2 , its pH-value , and initial concentration of wastewater on the decolorizing rate was discussed , respectively .
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在太阳光下,分别以TiO2和累托石-TiO2为催化剂降解甲基橙溶液6h,甲基橙的脱色率分别为62.9%和87.6%。
The methyl orange decolorization reached 62.9 % and 87.6 % respectively by TiO_2 and rectorite-TiO_2 photocatalytic degradation of methyl orange solution under solar light for 6 h.