Comparison of decolorization of reactive microorganisms isolated from various sources

Azo dyes are among the oldest man-made chemicals and they are still widely used in the textile, printing and the food industries.About 10% - 15% of the total dyes used in the industry is released into the environment during the manufacturing and usage. Some dyes and some of their N-substituted aromatic bio-transformation products are toxic and/or carcinogenic and therefore these dyes are considered to beenvironmental pollutants and health hazards. These azo dyes are degraded by physico-chemical and biological methods. Of these, biological methods are considered to be the most economical and efficient. In this work, attempts were made to degrade these dyes aerobically. Theorganisms which were efficient in degrading the following azo dyes-Red RB, Remazol Red, Remazol Blue, Remazol Violet, Remazol Yellow,Golden Yellow, Remazol Orange, Remazol Black- were isolated from three different sources viz., wastewater treatment plant, paper milleffluent treatment plant and tannery was tewater treatment plant. The efficiency of azo dye degradation by mixed cultures from each source wasanalyzed. It was found that mixed cultures from tannery treatment plant worked efficiently in decolorizing Remazol Red, Remazol Orange,Remazol Blue and Remazol Violet, while mixed cultures from the paper mill effluent worked efficiently in decolorizing Red RB, Golden Yellow and Remazol Yellow. The mixed cultures from wastewater treatment plant efficiently decolorized Remazol Black.     

铁阳极电凝聚法处理活性红241染料废水能耗分析

对铁阳极电凝聚处理活性红241染料废水过程影响电能消耗的影响因素进行了考察.结果表明:电流密度、染料废水初始pH、染料废水温度、电解质浓度以及染料浓度的变化均能对能耗和脱色效率产生较大影响;电流效率受电流密度、染料废水初始pH、电解质浓度的影响较大,受染料废水温度和初始浓度影响不大;对于浓度为50 mg/L的活性红241染料废水,在电流强度为12.5 A/m2、电解温度为25 ℃、硫酸钠浓度为0.01 mol/L、pH为7.53、电解时间为60 min的实验条件下,染料废水脱色率达92.7%,电能消耗为1.53kWh/kg dye,电流效率为94.2%.     

利用多孔陶珠固定化微生物细胞处理印染废水的研究

用自制多孔陶珠载体固定脱色混合菌,在不同pH、温度、增补营养浓度、固定化细胞与废水比率等条件对印染废水的脱色进行了试验.在最适条件下进行填充柱式反应器作扩大处理印染废水,脱色效果良好.     

Study on the decolorization of dyes by microorganisms

Thirteen strains of bacteria with ability of dye decolonization were isolated from activated sludge and biofilm collected from textile wastewater treatment plants, and identified as Alteromonas, Klebsiella, Pseudomonas, Enterobacter. Alcali-genes and Corynobacterium. These strains D33, D32, D4 of Alteromonas can decolorize 29 kinds of dyes with good decolorizing activities of about 2.6 mg dye/gram wet cells.h-1. The optimum pH was 7-8 and the temperature was 37℃. The growth of bacteria was 3 times better in shaking cultures than in static cultures. But the decolorization rate of dyes was 4-9 times more in the latter than in the former. The results from the examination of the reaction products of Diamond Chrome Red B and Diamond Narry Blue RRN indicated the possibility of biodegradation of these dyes by Enterobacter D17.     

Decolorization of azo dyes with high salt concentration by salt-tolerant mixed cultures under anaerobic conditions

Because the lack of detailed study of biological decolorization in high salt dye wastewater, it is still difficult to evaluate the biological treatment on high-salinity dye wastewater. The experiments were carried out to study the salt-tolerant bacteria, which is useful in the treatment of high-salinity colored wastewater. Simulated wastewater containing 5-150 g/L salt （NaCI） and 50-2000 mg/L Reactive Brilliant Red K-2BP was treated with three salt-tolerant mixed cultures （CAS, TAS, DSAS）, which were under a gradually acclimated procedure. With the increase of concentrations of salt and dye, the decolorization became low. The abilities of decolorization of dyes wastewater by three mixed cultures （CAS, TAS, DSAS） were studied, CAS and DSAS mixed cultures showed more active for the treatment of high-salinity colored wastewater than TAS mixed cultures. The results suggested that there might be a simple process for the high salt wastewater treatment, which could be incorporated into conventional activated sludge plants.     

耐盐菌对偶氮染料酸性红B的脱色研究

从食品加工厂含盐污水处理车间的活性污泥中分离出对偶氮染料具有脱色活性的耐盐菌体,研究了不同pH值、脱色温度、接菌量以及装液量等条件对耐盐菌体降解酸性红B的影响,并设计正交实验,获得其降解模拟偶氮染料废水的最佳反应条件.研究结果表明,耐盐菌体TAS在35℃、pH为8、装液量为50mL及接菌量为8%(体积分数)的条件下,反应10h后对浓度为50mg·L-1的酸性红B模拟废水的脱色率达91%.     

固定化无花果曲霉对活性艳蓝KN-R的脱色

采用海藻酸钙法固定不同状态无花果曲霉，形成活菌固定化小球和死菌固定化小球。同时考察了不同因素如培养时间、温度、pH、染料浓度对活性艳蓝KN-R的脱色影响。试验结果表明：在33℃、pH为5．0、150r／min的振荡条件下，经66h它对活性艳蓝KN-R的脱色达到最佳效果。两种不同状态固定化小球的脱色率有较大的差别，其中活菌固定化小球的脱色率明显高于死菌固定化小球。其中活菌固定化小球经3次脱色后能重复使用，脱色率仍达79．8％。     

锰砂催化电化学方法对染料K2G脱色效果的研究

研究了锰砂催化电化学方法对偶氮染料K2G的脱色效果 .结果表明 ,锰砂中的主要成份MnOOH对电化学过程具有催化作用 ,可有效地提高染料的脱色效率 .对锰砂的X光衍射实验证明 ,反应过程中MnOOH的含量无较大变化 .染料溶液的起始pH值对其脱色率没有明显的影响 .在最佳电流密度di 为 0 2 6A·dm- 2 ,Na2 SO4 浓度为0 0 1mol·l- 1时 ,电解 70min ,浓度为 1 0 0mg·l- 1的染料K2G的脱色率能达到 99% .     

类Fenton反应对偶氮染料橙黄II的脱色研究

以橙黄II染料溶液为研究对象,通过正交实验确定了Fe-NTA/H2O2构成的类Fenton反应中各影响因子的最佳操作条件为:[H2O2]=20 mmol/L,[Fe-NTA]=2.5 mmol/L,pH=3。同时考察了反应时间、溶液pH值、H2O2浓度、Fe-NTA浓度对脱色效率的影响。实验表明脱色反应在30 m in内基本完成,类Fenton试剂能在较宽的pH范围内保持较好的脱色效果,而且在pH=6时,类Fenton试剂比传统Fenton试剂的脱色效率提高约75%。增加双氧水浓度可以提高橙黄II溶液脱色率,但超过20 mmol/L后效果提高不明显。在0.5~2.5 mmol/L的范围内,Fe-NTA浓度对脱色效果的影响不显著。     

偶氮染料直接大红GBE脱色细菌的筛选及研究

从保定市某印染厂曝气池废水中分离到一株对染料直接大红GBE有高效脱色效果的菌株HD 1,经鉴定 ,该菌为沙门氏菌属 (Salmonella) ,在 2 5— 3 7℃都有较高的脱色率 ,最佳脱色温度为 3 7℃ ,在pH 6— 8范围内对染料具有明显的脱色效果 ,最佳脱色 pH值为 7.0 ,氧气对脱色具有一定的抑制作用。染料脱色产物的紫外 -可见光谱分析表明 ,可见光区 488nm处的吸收峰完全消失 ,而在紫外区出现了两个吸收峰