硅胶负载壳聚糖对水溶性染料脱色的正交试验

通过正交试验方法,用硅胶负载壳聚糖对直接耐晒兰、直接大红、直接艳红、直接深蓝、直接嫩黄五种水溶性染料进行脱色实验.对脱色的影响因素,如处理剂用量、pH值、搅拌时间、静置时间、染料颜色进行了探讨 确定了影响脱色效果的主次因素顺序,并绘制出硅胶负载壳聚糖对五种直接染料的吸附等温线,吸附等温线符合弗里德利希方程式 对直接耐晒兰的吸附方程式为:Γ=0.05·C0.36     

新生态二氧化锰对水中碱性染料的脱色作用

以新生态二氧化锰作吸附剂,对水中碱性染料——碱性紫和碱性橙进行吸附脱色。介绍实验原理、实验方法,并对影响吸附的因素进行了较详细探讨。     

胺基酚醛型吸附树脂对染料废水的吸附与脱色

研究了胺基酚醛型吸附树脂对4种水溶性染料酸性橙II,活性红R-3B、活性黑KN-B、活性翠蓝KN-G的吸附性能。探讨了浓度、温度等因素对染料吸附性能的影响。结果表明,吸附树脂对酸性橙II具有较好的吸附;升高温度有利于吸附;随染料浓度的增大,树脂的吸附量增加。吸附树脂对4种水溶性染料的吸附速率较快,达到吸附平衡所用时间较短。对模拟废水的脱色率均达到了95.7%以上。     

刚果红和结晶紫在锯末上的吸附性能研究

采用静态吸附法研究了刚果红和结晶紫在锯末上的吸附特性。结果表明,锯末是具有高脱色率的廉价吸附剂,最大脱色率可达96%。在pH4~10范围内,酸度对结晶紫的吸附影响较小,随着pH值增大,脱色率从96.6%缓慢降至91.1%。pH值对刚果红吸附影响较大,pH从4增大到7,脱色率迅速从22.5%增加至96.0%,然后,随pH值升高脱色率缓慢下降至91.4%。两种染料在锯末上的吸附等温线均较好的符合Freundlich方程,吸附动力学可以用拟二级动力学模型描述。计算了相应的吸附等温线参数和吸附动力学参数。     

玉米芯粉对中性红的吸附脱色研究

本文研究了玉米芯粉对染料的吸附脱色情况,结果表明,玉米芯粉能有效吸附阳离子染料。以阳离子染料中性红为模型,考察了吸附剂用量、溶液浓度、溶液p H以及温度等对吸附平衡的影响,结果表明玉米芯粉吸附中性红符合拟二级动力学方程;不同温度下,该吸附过程符合Langmuir方程和Freundlich方程,qmax、KF受温度影响小;D-R等温方程拟合结果表明该吸附是以化学吸附为主;热力学参数计算结果表明玉米芯粉吸附中性红是一个熵减的自发放热过程。其他电解质的存在不利于吸附反应的进行。     

茶叶吸附染料作用的初步研究

本文证实了茶叶经化学处理后，可以吸附水中阳离子型染料。三种染料的脱色率均在９０％以上。吸附后的茶叶可以再生处理，循环使用。     

氧化石墨及石墨烯对阳离子染料的吸附行为研究

利用改进的Hummers-Offeman法合成氧化石墨(GO)和石墨烯,并以其作为吸附剂,选择三种阳离子染料为模型染料,通过测定吸附前后三种阳离子染料溶液的紫外-可见吸收光谱,考察pH、染料初始浓度、温度对吸附效果的影响,研究GO及石墨烯对这三种阳离子染料的吸附行为。结果表明,GO及石墨烯对三种阳离子染料的吸附过程均符合准二级反应动力学方程,且染料结构和pH对其吸附效率也有影响。     

一步法制备聚脲多孔材料及其对染料的吸附

以甲苯二异氰酸酯为单体, 在水和丙酮混合溶剂中不用致孔剂且无需任何高分子改性一步法合成了聚脲多孔材料(PPU), 通过扫描电镜和BET氮气吸附法对其表面形貌和孔参数进行了表征. 以酸品红(AF)溶液模拟染料废水, 对其在PPU上的吸附进行了研究, 讨论了pH、 吸附时间、 AF初始浓度及吸附剂用量对吸附过程的影响, 优化了吸附条件. 结果表明, PPU对染料AF具有优异的吸附效果. PPU在30℃, pH=3时对AF的最大吸附量为44.60 mg/g. PPU对AF的吸附过程更接近于Langmuir等温吸附的单分子层吸附机理. PPU对水溶性染料刚果红(CR)也有很好的吸附能力. 使用水、 乙醇和水混合溶剂以及NaOH水溶液对染料吸附后的解吸附结果表明, 乙醇和水混合溶剂对吸附染料的解吸效率最高, 对2种染料的解吸附都达90%以上. 解吸后PPU的再吸附能力略有下降, 但第三次吸附量仍达到首次吸附的80%以上.     

超分子大环化合物用于染料吸附的研究进展

染料在许多工业领域中的长期广泛使用,带来了严重的环境水污染问题,威胁人类健康,因此有效地从水中去除染料是亟待解决的问题。吸附由于具有高效、简单和低成本的优点而成为降低水中染料含量最有吸引力的技术之一。吸附剂的选择对染料的高效吸附至关重要。具有大环空腔的超分子大环化合物作为主体分子对很多客体分子都具有较强的吸附作用,其作为染料吸附剂得到了极其广泛的关注。该文综述了基于大环化合物的吸附剂的制备及用于水体中染料去除的研究,对各种吸附剂的吸附性能进行了讨论,并对基于大环化合物的染料吸附剂的未来发展提出展望。     

水溶性染料在PbTiO3体系中的光催化降解

以ＰｂＴｉＯ３为光催化剂，对多种水溶性染料的光催化降解反应进行了研究，结果表明：光降解脱色效率与染料溶液匠ＰＨ值、光照时间、光源种类及催化剂用量等因素有关，染料浓度为１０ｍｇ／ＬＰＨ＝６，催化剂用量为１００ｍｇ／５０ｍｌ，直接以太阳光作光源，光照１ｈ以后，脱色率达９０５以上，有机染料中硫和氮元素转化为ＳＯ４＾２－和ＮＯ３的生成率分别为８５％和６５％。     

Decolorization of Some Azo Dyes by Immobilized <Emphasis Type="Italic">Geotrichum</Emphasis> sp. Biomass in Fluidized Bed Bioreactor

Geotrichum sp. strain, which is able to decolorize azo dyes enzymatically, was used in this study for decolorization of synthetics solutions contaminated by toxic azo dyes orange G, trypan blue, azorubine, and methyl red. The biomass of Geotrichum sp. was immobilized in calcium alginate and polyacrylamide gels and used for the decolorization of tested azo dyes in fluidized bed bioreactor. The highest specific decolorization rate was obtained when the fungal biomass was entrapped in calcium alginate beads. Immobilized biomass in calcium alginate continuously decolorized azo dyes after eight repeated batch decolorization experiments without significant loss of activity whereas polyacrylamide immobilized biomass retained only 10% of its activity after 4 days of incubation. The effects of some physicochemical parameters such as temperature, pH, and dyes concentration on decolorization performance of isolated fungal strain were also investigated.     

Enhancement of azo dyes removal efficiency by using LDH/Tris/Pd catalyst: Kinetic studies

LDH/Tris/Pd (CaAl‐layered double hydroxide/tris (hydroxymethyl)aminomethane/palladium) was synthesized and appraised for its catalytic activity towards the degradation of two selected azo dyes. The decolorization of azo dyes, acid red 18 (AR 18) and reactive yellow 15 (RY 15), requires considerably small amounts of synthesized catalyst. Kinetic studies show that the catalytic decolorization of these azo dyes follows the first order kinetic model. The reported method is simple and applicable; in addition, the stable catalyst can efficiently decolorize model azo dyes with good recyclability. Therefore, LDH/Tris/Pd can be accepted as the possible component for the utilization in wastewater treatment.     

Polysaccharide/Fe(III)-porphyrin hybrid film as catalyst for oxidative decolorization of toxic azo dyes: An approach for wastewater treatment

A hybrid film of chitosan/poly(vinyl alcohol)/cationic Fe(III)-porphyrin (Cht/PVA-FeTMPyP) was synthesized to act as a Fenton-like catalyst to decolorize methyl orange and methyl red azo dyes. The Cht/PVA-FeTMPyP film was characterized by different analytical and microscopy techniques, which indicated that the metalloporphyrin affects different properties of the hybrid film. Batch experiments revealed that the hybrid film exhibits enhanced catalytic activity towards dyes decolorization in the presence of H₂O₂ as compared to the “free” FeTMPyP. Fast decolorization rates as high as 90 min were observed for both azo dyes under mild conditions (pH 7 and room temperature), even at low concentrations of the catalyst in H₂O₂. After the decolorization, FTIR analysis showed that simple molecules are released as by-products. Moreover, the hybrid film performed well in cyclic runs without leaching out iron ions or losing its catalytic activity. All these features associated with its ease handling ranks the Cht/PVA-FeTMPyP hybrid film as a promising heterogeneous Fenton-like catalyst for the decomposition of azo dyes in water.     

Functional sulfur amino acid production and seawater remediation system by sterile Ulva sp. (chlorophyta)

Sterile Ulva, which is a macroalga, has the potential to grow stably; therefore, this seaweed is expected to be an efficient resource of functional food containing various nutrients such as sulfur amino acids, proteins, carbohydrates, and minerals. Ulva lactuca was selected from the “Marine Park” in Tokyo Bay, and its growth rate (g-dry/[m²·d]) was measured using model reactors located on the land or on the surface of the sea at Yokohama. The growth rate of U. lactuca was recorded to be approx 20 g-dry/(m²·d), which is estimated to be 10 times greater than that in a natural field in the Marine Park. In addition, this growth rate was higher than that of conventional crops such as corn and rice on a farm or paddy. These data led us to newly design and propose a floating type of labor-efficient U. lactuca production system. d-Cysteinolic acid, which is included in U. lactuca as a major sulfur amino acid, inhibited the Fenton reaction, resulting in suppression of hydroxyl radical production and singlet oxygen. Addition of the sulfur amino acid (1μM) to HepG2 cells markedly decreased the intracellular triglyceride level. Hence, this proposed facility also has the potential for industrial production of a valuable resource for the primary prevention of lifestyle-related diseases using enriched or eutrophied seawater.     

Photoinhibition of photosynthesis in Macrocystis pyrifera (Phaeophyceae), Chondrus crispus (Rhodophyceae) and Ulva lactuca (Chlorophyceae) in outdoor culture systems

The effect of solar radiation on photosynthesis and chlorophyll fluorescence associated to photosystem II (PS II) was determined in the Phaeophyta Macrocystis pyrifera, the Rhodophyta Chondrus crispus and the Chlorophyta Ulva lactuca by oxygen evolution and pulse-amplitude-modulated (PAM) fluorescence. The algae were maintained in 1.2 m3 outdoor tanks with constant aeration and at 8, 26 and 100% incident irradiance (E(o)). All three species showed a decrease in deltaF/F'm values during solar noon compared to values in the morning and afternoon, suggesting a photoinhibition of photosynthesis. In general, photoinhibition was negatively correlated to increasing daily irradiance in all three species. Photoinhibition in C. crispus occurred in tissue incubated at 8, 26 and 100% E(o), while in M. pyrifera and U. lactuca a decrease in deltaF/F'm values was only observed in tissue incubated at 100% E(o). This suggests that species that naturally grow at greater depths might be more susceptible to excessive light when cultured in shallow waters compared to species that naturally inhabit shallower depths. In M. pyrifera, deltaF/F'm values were lower in the afternoon than those in the morning, suggesting slower repair mechanisms of the photosystem II compared to the other species. The results suggest that photoinhibition could be reduced by reducing incident irradiance to culture systems or increasing of biomass to promote self-shading. Gross oxygenic photosynthesis increased linearly at low electron transport rates after which it saturated in all three species. This suggests that chlorophyll fluorescence could be used as an indicator of the physiological status of macroalgae maintained in dense aquaculture systems.     

Fenton Reagent Generated in Electrolysis Cell and Its Usage in Degradation and Decolorization of Dyes

IntroductionAs is known,textile wastewater is a troubleindustrial wastewater due to its environment pollu-tion caused by its deep color,huge amounts,highCODcrand BOD5,as well as itsdifficultdegradationby biodegradation[1— 3 ] .Fenton reagent[4— 6] has a high redox potential,2 .8V. Recently,the Fenton reagent used as anoxidant to treat toxic organic wastewater such aswood glue,lead trinitroresorcinate and textilewastewater has been reported.Although hydroxylradical can be generated by a c…     

Investigation of photocatalytic effect of SnO2 nanoparticles synthesized by hydrothermal method on the decolorization of two organic dyes

Tin oxide nanoparticles about 4 nm in size were successfully synthesized using hydrothermal method. The photocatalytic activity of the particles was determined by the decolorization of malachite green (MG) and titanium yellow (TY) under UV light. 12 ppm of MG and TY were used for the solution with an initial volume of 100 mL. The amounts of catalysts were 10, 30 and 50 mg. The effect of the catalyst loading on the reaction kinetic parameters and the decolorization rate constants (k) were determined. In order to reveal the photocatalytic efficiency of the nano particles, further experiments were conducted with bulk SnO(2). The oxygen species registered no observable effect on the reaction mechanism as nitrogen bubbling leads to no change in decolorization rates. Results showed that the synthesized nano tin oxide particles represent excellent photocatalytic activity for the decolorization of 12 ppm MG under UV light with 150 min of irradiation time. The energies of the highest occupied molecular orbital (HOMO) E(HOMO) of the dyes were also calculated by using the quantum chemical software in order to discuss the differences for the decolorization of two dyes. Electrical energy efficiency values for the decolorization of two dyes were also calculated.     

Decolorization of Synthetic Dyes by Crude and Purified Laccases from Coprinus comatus Grown Under Different Cultures: The Role of Major Isoenzyme in Dyes Decolorization

Coprinus comatus laccase isoenzyme induction and its effect on decolorization were investigated. The C/N ratio, together with aromatic compounds and copper, significantly influenced laccase isoenzyme profile and enzyme activity. This fungus produced six laccase isoenzymes in high-nitrogen low-carbon cultures but much less in low-nitrogen high-carbon (LNHC) cultures. The highest laccase level (3.25 IU/ml), equivalent to a 12.6-fold increase compared with unsupplemented controls (0.257 IU/ml), was recorded after 13 days in LNHC cultures supplemented with 2.0 mM 2-toluidine. Decolorization of twelve synthetic dyes belonging to anthraquinone, azo, and triphenylmethane dyes, by crude laccases with different proportion of isoenzymes produced under selected culture conditions, illustrated that the LacA is the key isoenzyme contributed to dyes decolorization especially in the presence of 1-hydroxybenzotriazol, which was further confirmed by dyes decolorization with purified LacA in the same condition. The crude laccase only was able to decolorize over 90 % of Reactive Brilliant Blue K-3R, Reactive Dark Blue KR, and Malachite Green, and higher decolorization for broader spectrum of synthetic dyes was obtained in presence of redox mediator, suggesting that C. comatus had high potential to decolorize various synthetic dyes as well as the recalcitrant azo dyes.     

Mediator-assisted Decolorization and Detoxification of Textile Dyes/Dye Mixture by Cyathus bulleri Laccase

Laccase from basidiomycete fungus Cyathus bulleri was evaluated for its ability to decolorize a number of reactive and acidic dyes in the presence of natural and synthetic mediators. The extent of decolorization was monitored at different mediator/dye concentrations and incubation time. Among the synthetic mediators, 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS) was effective at low mediator/dye ratios and resulted in 80-95% decolorization at rates that varied from 226 +/- 4 nmol min(-1) mg(-1) for Reactive Orange 1 to 1,333 +/- 15 nmol min(-1) mg(-1) for Reactive Red 198. Other synthetic mediators like 1-hydroxybenzotriazole and violuric acid showed both concentration- and time-dependent increases in percent decolorization. Natural mediators like vanillin, on the other hand, were found to be less effective on all the dyes except Reactive Orange 1. Computed rates of decolorization were about twofold lower than that with ABTS. The laccase-ABTS system also led to nearly 80% decolorization for the simulated dye mixture. No clear correlation between laccase activity on the mediator and its ability to decolorize dyes was found, but pH had a significant effect: Optimum pH for decolorization coincided with the optimum pH for mediator oxidation. The treated samples were also evaluated for toxicity in model microbial systems. The laccase-mediator system appears promising for treatment of textile wastewaters.