Decolorization of anthraquinone dye with immobilized Penicillium jensenii

Cells of Penicillium jensenii were immobilized by entrapment in natural and synthetic polymeric matrices. The decolorization of Reactive Brilliant Blue KN-R by immobilized cells has been studied. It was found that CA-immobilized cells could effectively decolorize reactive brilliant blue KN-R. Many factors affecting the decolorization process were studied, including: pH, temperature, dye concentration, shaker speed and culture time. The reusability of the immobilized cells was evaluated with repeated-batch decolorization experiments. The optimum pH, temperature, shaker speed and culture time of decolorization with CA-, CGN-, and PAA- immobilized cells are 4.0 and 30 degrees C and 150r/min and 48hr respectively, dye concentration could have some effects on decolorization. After four repeated experiments, the decolorization rate of CA-, CGN-, and PAA- immobilized cells could still remain 73.6%, 60.8%, 50.5%, respectively.     

黄孢原毛平革菌对固体介质中染料的降解反应

用黄孢原毛平革菌(Phanerochaetechrysosporium)3品系在固体介质中建立染料的降解反应体系,分光光度法测定染料的脱色降解率。黄孢原毛平革菌在琼脂、沙子及土壤等固体介质中均能有效地降解偶氮染料、蒽醌染料及聚合染料;植物材料玉米芯和木屑可作为共代谢碳源被该菌利用;BKM F 1767菌种降解能力最强,对活性艳蓝KN R的进攻性优于对PolyR 478和比布列希猩红。     

青霉菌对活性艳蓝 KN-R的吸附作用

研究了青霉菌(Penicillium X5)对活性艳蓝KN—R的吸附作用．通过对培养液的波谱分析和宏观现象的观察，结果表明，在72h内，脱色是由吸附引起的．当染料的浓度为100mg/L时，活菌体对染料的吸附率可达88．66％．本实验还研究了对实际应用和吸附过程有影响的几个因素，包括葡萄糖、NaCl、温度和pH.结果表明：葡萄糖浓度在0-20g／L时，随着葡萄糖浓度的增加，菌体的干重相应增加，说明对活性艳蓝KN—R的吸附具有促进作用，但浓度在10-20g／L时，吸附作用不显著；而随着NaCl浓度(0-2％)的增加，吸附率却显著降低．最佳脱色温度为25℃，pH为4．0．活菌体与死菌体的生物吸附均符合Langmuir方程，活菌体比死菌体具有更好的吸附性能．吸附在菌丝体上的染料可以用甲酵进行洗脱，菌丝球在下次使用前用蒸馏水冲洗至pH中性，此菌丝球可重复使用3次．固8表2参11     

Fe-Mn-sepiolite as an effective heterogeneous Fenton-like catalyst for the decolorization of reactive brilliant blue

A study of the decolorization of reactive brilliant blue in an aqueous solution using Fe-Mn-sepiolite as a heterogeneous Fenton-like catalyst has been performed. The Fourier transform infrared (FTIR) spectra of the catalyst showed bending vibrations of the Fe-O. The X-ray diffraction (XRD) patterns of the catalyst showed characteristic diffraction peaks of α-Fe₂O₃, γ-Fe₂O₃ and MnO. A four factor central composite design (CCD) coupled with response surface methodology (RSM) was applied to evaluate and optimize the important variables (catalyst addition, hydrogen peroxide dosage, initial pH value and initial dye concentration). When the reaction conditions were catalyst dosage= 0.4 g, [H₂O₂]= 0.3 mL, pH= 2.5, [reactive brilliant blue]_o = 50 mg·L⁻¹, and volume of solution= 500 mL at room temperature, the decolorization efficiency of reactive brilliant blue was 91.98% within 60 min. Moreover, the Fe-Mn-sepiolite catalyst had good stability for the degradation of reactive brilliant blue even after six cycles. Leaching of iron ions (<0.4 mg·L⁻¹) was observed. The decoloring process was reactive brilliant blue specific via a redox reaction. The benzene ring and naphthalene ring were first oxidized to open ring; these were then oxidized to the alcohol and carboxylic acid. The reactive brilliant blue was decomposed mainly by the attack of ·OH radicals including surface-bound ·OH radicals generated on the catalyst surface.     

Treatment of methylene blue-containing wastewater using microorganisms supported on granular activated carbon under packed column operation

We studied the feasibility of using biological granular activated carbon-packed column in treating methylene blue-containing wastewater. The granular activated carbon with immobilized microbes was packed into a column and fed with 3 liter methylene blue-containing wastewater daily. With initial 1350 mg/l of methylene blue and 1550 mg/l of chemical oxygen demand, it was observed that the colour and chemical oxygen demand removal efficiencies were 99 and 78%, respectively. The high treatment performance of the system could be due to the simultaneous adsorption and biodegradation processes and advantages of immobilized microbes compare to suspended cell system.     

吸附菌HX5对活性艳蓝KN-R的吸附脱色作用

研究了吸附菌HX5对活性艳蓝KNR的吸附脱色作用,碳源、氮源、盐度和染料浓度对KNR吸附脱色的影响,以及HX5生长菌体对KNR的脱色机理.结果表明,菌株HX5对KNR脱色的最佳碳、氮源分别为葡萄糖和硫酸铵;碳源浓度在10g/L以上时,可使200mg/L的KNR完全脱色,碳源浓度过高,脱色效果不显著;HX5对KNR脱色的最佳氮源浓度为0.75g/L,在0～2%的浓度范围内,盐度对脱色无显著影响;染料对菌株HX5具有一定的生长抑制毒性,但对于400mg/L的KNR,脱色率仍可达95.1%;HX5生长菌体对KNR作用96h内主要为生物吸附作用,96h外则可能发生了生物降解.图5表2参9     

NaOH改性落叶松锯木屑对活性染料的吸附性能

通过间歇式试验研究NaOH改性落叶松锯木屑对活性染料KN-B、K-2BP和KN-R的吸附脱色性能。结果表明,酸性条件下该改性木屑对3种染料均具有较好的脱色效果。在初始pH值为3时,3种染料的吸附脱色率均表现为随温度升高而逐渐降低,随改性木屑用量的增加而增加的趋势;而随染料初始浓度的增大,表现出先升高后降低的趋势。在初始pH值为3、温度为298 K条件下,3种染料在改性锯木屑上的等温吸附符合Langmuir吸附模型,KN-B、K-2BP和KN-R的最大饱和吸附量分别为22.32、10.47和14.93 mg.g-1,吸附自由能ΔG298 K分别为-12.61、-9.77和-14.45 kJ.mol-1,均为物理性自发吸附过程。试验条件下,KN-R、KN-B和K-2BP的吸附动力学均符合准二级动力学吸附方程,吸附速率常数依次减小。综合等温吸附和吸附动力学研究结果表明,3种染料的脱色效果以KN-R为最好,KN-B次之,K-2BP最差。     

稻草秆粉基质中白腐茵对三苯甲烷类染料的降解特性

研究了稻草秆粉基质中自腐菌对三苯甲烷类染料（孔雀绿、溴酚蓝和结晶紫）的降解特性．结果表明，白腐菌10d内对三苯甲烷类染料脱色率均可达到93％以上．染料加入对木素过氧化物酶分泌有抑制作用．随着培养过程的进行，染料脱色率增加，脱色降解以漆酶为主．紫外扫描发现，染料吸收波长有偏移，标志着染料结构发生变化，其中溴酚蓝能被完全矿化．图2表2参10     

JAZ型絮凝剂对活性染料的絮凝效果

本文介绍了新近开发的ＪＡＺ絮凝凝剂地水样中活性艳红Ｋ－２ＢＰ，活性紫Ｈ－２Ｒ和活性黑Ｋ－ＢＲ染料的絮凝效果及ＰＨ值和投药比对脱色率的影响。在中性和弱酸性中絮凝效果好。投药比增大脱色率增加。对活性艳红和活性紫，起始浓度增加则达到８８．５％脱色率的投药比降低。对三种活性染料配水和活性 染料配水和活性黑染料生产水脱色率均可达到９９％，处理液残余色度在２０倍以下。     

Biotransformation of phenolics with laccase containing bacterial spores

Treatment of effluents containing phenols such as textile dyes with fungal laccases is usually limited to the acid to neutral pH range and moderate temperatures. Here we demonstrate for the first time that spore-bound laccases which are stable at high temperatures and pH values can be used for phenolic dye decolorisation. Laccase containing spores from Bacillus SF were immobilized on alumina pellets. Both immobilized and free spores were able to completely decolorize the common textile dyes Mordant Black 9, Mordant Brown 96/Mordant Brown 15, and Acid Blue 74 within 90 min of incubation time and decolorized solutions were successfully used in re-dyeing.     

七种染料对鲤鱼肝微粒体芳烃羟化酶的诱导

以鲤鱼肝微粒体为实验体系，研究了七种染料化合物对其芳烃羟化酶（AHH）的诱导，发现七种染料都可诱导AHH的活性，随染料浓度增大AHH的活性升高。七种染料对AHH活性诱导能力大小为：酸性红B＞派拉丁蓝RRN＞普拉红B＞活性艳红K－2BP＞活性艳红K－2G，媒介大红S－80＞分散红E－4B，与其毒性大小相关。     

多针-水电极直流电晕放电染料废水脱色

采用多针-水电极反应器,研究了直流电晕放电对活性艳蓝KN-R染料废水的脱色,考察了放电电压、初始pH值和初始浓度对活性艳蓝脱色的影响,通过对液相活性物质(O3和.OH)浓度的考察探讨了脱色机理.结果表明,多针-水电极直流电晕放电对活性艳蓝脱色效果明显;放电电压、溶液初始pH值对活性艳蓝脱色效果的影响与其对液相O和.OH浓度的影响一致;.OH和O是促使RBB脱色的主要因素.     

A comparative study of Cu (II) biosorption on Ca-alginate and immobilized live and inactivated Cladosporium sp

Spores of Cladosporium sp. were immobilized into Ca-alginate beads via entrapment. The alginate beads and both entrapped live and inactivated spores of Cladosporium sp. were used for comparison of biosorptive capacity from aqueous solutions. The factors affecting the adsorption ability on Cu (II), such as the contact time, initial pH, temperature were investigated. The results showed that the Ca-alginate beads containing live spores of Cladosporium sp. had the maximum biosorptive capacity. The biosorption equilibrium was established in about 3 h. The maximum biosorption of Cu (II) on Ca-alginate entrapping spores and no spores were obtained between pH 4.0 and 3.5. Temperature over the range of 15-45 degrees C had no significant effect on the biosorption capacity. The biosorptive capacity increased with initial concentrations in the concentration range of 30-800mg/l. The equilibrium was well described by Langmuir biosorption isotherms. The Ca-alginate beads could be regenerated using 0.1M HCl, The biosorbents were reused in three biosorption-desorption cycles with negligible decrease in biosorptive capacity.     

膨胀石墨对活性艳红X-3B染料的吸附脱色

研究了以膨胀石墨(250 mL/g)为吸附剂,对活性艳红X-3B染料的吸附脱色作用,探讨了影响吸附的因素,结果表明:膨胀石墨对活性艳红X-3B染料的吸附率高,当膨胀石墨用量适当时,低初始浓度、低pH值有利于活性艳红X-3B染料的吸附脱色,温度高低对活性艳红X-3B染料的吸附脱色无明显影响。     

无花果曲霉对Cu^2＋吸附的研究

采用生物吸附法，研究了经过预处理的无花果曲霉对Cu^2 吸附行为与影响吸附的主要因素，具体包括菌丝球与Cu^2 接触反应时间、Cu^2 浓度、原初pH值3个方面。结果表明：该菌丝球在吸附进行5min时，吸附量已达量2．855mg/g，在吸附进行4h以后趋于平衡。最佳pH范围为4．0－5．0，Cu62 浓度在20－100mg/L范围内吸附量为2．763－4．713mg/g，而吸附率却为32．31％－9．54％。其吸附行为在一定的温度和一定浓度范围内较好地符合Langmuir吸附等温模型。     

火山岩型膨润土原矿的脱色性能研究

考察了火山岩型膨润土原矿对亚甲基蓝溶液的脱色处理效果，发现12min后4种矿物的脱色率均达到了85％以上，其中信阳、黑山和凌源膨润土矿样脱色率高达98％以上。各膨润土矿地质背景差异导致矿样间物理化学性质的差异较大。讨论膨润土的物理化学性质和染料脱色效果，发现影响膨润土样品吸附的主要因素为膨润土d001值、CEC以及内表面积。     

Degradation of bisphenol A by microorganisms immobilized on polyvinyl alcohol microspheres

In this study, microorganisms （named B111） were immobilized on polyvinyl alcohol microspheres prepared by the inverse suspension crosslinked method. The biodegradation of bisphenol A （BPA） and 4-hydro- xybenzaldehyde, a degradation product of BPA, by free and immobilized B lll was investigated. The BPA degradation studies were carried out at initial BPA concentrations ranging from 25 to 150 mg·L^-1. The affinity constant Ks and maximum degradation rate Rmax were 98.3 mg·L^-1 and 19.7mg·mg^-1VSS·d^-1 for free B111, as well as 87.2mg·L^-1 and 21.1mg·mg^-1VSS·d^-1 for immobilized B 111, respectively. 16S rDNA gene sequence analyses confirmed that the dominant genera were Pseudomonas and Brevundimonas for BPA biodegradation in microorganisms B 111.     

Decolorisation of Acid Blue 74 by ultraviolet/H<Subscript>2</Subscript>O<Subscript>2</Subscript>

The photodegradation of Acid blue 74 in aqueous solution employing a H₂O₂/ultraviolet system in a photochemical reactor was investigated. The kinetics of decolorization were studied by application of a kinetic model. The results show that the reaction of decolorization followed pseudo-first order kinetics. We demonstrate that there is an optimum H₂O₂ concentration, at which the rate of the decolorization reaction is maximum. Irradiation at 253.7 nm of the dye solution in the presence of H₂O₂ results in complete discoloration after ten minutes of treatment.     

Anaerobic decolorization of an azo dye by a mixed culture

Wool dyeing wastewater contains xenobiotic compounds that can be removed by biotechnological processes. Studies on various dyes showed that anaerobic processes are suitable to alter azo dyes as a first step of the biodegradation process. These compounds are reduced by anaerobic consortia to aromatic amines and its ultimate degradation can be achieved by a further aerobic treatment.

Studies on degradation rate of an wool acid dye were performed in batch systems inoculated with anaerobic biomass. A commercial diazo dye, Acid Red 73, was added to the synthetic medium in which glucose was used as sole carbon source.

Results indicated that the Acid Red 73 was partially degraded by a mixed culture of anaerobic bacteria and a decolorization of 90% was obtained. Kinetics studies on removal of the colour showed that the decolorization rate was several times faster than the degradation rate of glucose for a range of dye concentrations between 60 mg/L and 400 mg/L. A first order kinetic model was used for dye concentrations up to 200 mg/L. For higher concentrations a model similar to the Michaelis‐Menten equation was better fitted to the experimental data.     

NKY功能化树脂静态吸附混合染料的研究

探讨了NKY功能化树脂对混合染料(活性艳蓝：KN-R和活性艳橙K-GN)的静态吸附行为．结果表明：NKY树脂吸附单组分染料的能力大于其对混合染料的吸附，而且对混合体系中的染料有一定的选择性，吸附KN-R的速率较大．从动力学研究来看，NKY对混合染料的吸附速率其决定步骤是液膜扩散．等温曲线的结果显示，NKY对混合染料中每种组分的吸附行为同吸附单组分体系的类似，同时，随温度的升高，吸附速率常数增大，标准自由能变的绝对值增大。