Heterogeneous Fenton degradation of azo dyes catalyzed by modified polyacrylonitrile fiber Fe complexes：QSPR (quantitative structure peorperty relationship) study

The amidoximated polyacrylonitrile (PAN) fiber Fe complexes were prepared and used as the heterogeneous Fenton catalysts for the degradation of 28 anionic water soluble azo dyes in water under visible irradiation. The multiple linear regression (MLR) method was employed to develop the quantitative structure property relationship (QSPR) model equations for the decoloration and mineralization of azo dyes. Moreover, the predictive ability of the QSPR model equations was assessed using Leave-one-out (LOO) and cross-validation (CV) methods. Additionally, the effect of Fe content of catalyst and the sodium chloride in water on QSPR model equations were also investigated. The results indicated that the heterogeneous photo-Fenton degradation of the azo dyes with different structures was conducted in the presence of the amidoximated PAN fiber Fe complex. The QSPR model equations for the dye decoloration and mineralization were successfully developed using MLR technique. MW/S (molecular weight divided by the number of sulphonate groups) and NN=N (the number of azo linkage) are considered as the most important determining factor for the dye degradation and mineralization, and there is a significant negative correlation betweenMW/S or NN=N and degradation percentage or total organic carbon (TOC) removal. Moreover, LOO and CV analysis suggested that the obtained QSPR model equations have the better prediction ability. The variation in Fe content of catalyst and the addition of sodium chloride did not alter the nature of the QSPR model equations.     

Decolorization of Orange II using an anaerobic sequencing batch reactor with and without co-substrates

We investigated the decolorization of Orange II with and without the addition of co-substrates and nutrients under an anaerobic sequencing batch reactor (ASBR). The increase in COD concentrations from 900 to 1750 to 3730 mg/L in the system treating 100 mg/L of Orange II-containing wastewater enhanced color removal from 27% to 81% to 89%, respectively. In the absence of co-substrates and nutrients, more than 95% of decolorization was achieved by the acclimatized anaerobic microbes in the bioreactor treating 600 mg/L of Orange II. The decrease in mixed liquor suspended solids concentration by endogenous lysis of biomass preserved a high reducing environment in the ASBR, which was important for the reduction of the Orange II azo bond that caused decolorization. The maximum decolorization rate in the ASBR was approximately 0.17 g/hr in the absence of co-substrates and nutrients.     

Photocatalytic parameters and kinetic study for degradation of dichlorophenol-indophenol (DCPIP) dye using highly active mesoporous TiO2 nanoparticles

Highly active mesoporous TiO_2 of about 6 nm crystal size and 280.7 m~2/g specific surface areas has been successfully synthesized via controlled hydrolysis of titanium butoxide at acidic medium. It was characterized by means of XRD(X-ray diffraction), SEM(scanning electron microscopy), TEM(transmission electron microscopy), FT-IR(Fourier transform infrared spectroscopy), TGA(thermogravimetric analysis), DSC(differential scanning calorimetry) and BET(Brunauer–Emmett–Teller) surface area. The degradation of dichlorophenol-indophenol(DCPIP) under ultraviolet(UV) light was studied to evaluate the photocatalytic activity of samples. The effects of different parameters and kinetics were investigated. Accordingly, a complete degradation of DCPIP dye was achieved by applying the optimal operational conditions of 1 g/L of catalyst, 10 mg/L of DCPIP, pH of 3 and the temperature at 25 ± 3°C after 3 min under UV irradiation. Meanwhile, the Langmuir–Hinshelwood kinetic model described the variations in pure photocatalytic branch in consistent with a first order power law model.The results proved that the prepared TiO_2 nanoparticle has a photocatalytic activity significantly better than Degussa P-25.     

利用废啤酒酵母泥对活性黑31的吸附特性研究

利用粉末状废啤酒酵母泥对水中活性黑31进行吸附去除实验,研究了不同溶液初始pH值、不同温度对活性黑31的吸附性能,继而探讨了其吸附热力学和解吸性能。结果表明：在强酸条件下（pH 3）,废啤酒酵母泥对活性黑31的吸附量最大;温度对废啤酒酵母泥吸附活性黑31的性能影响不大,温度从25℃升至50℃,吸附量只减少了9.9 mg...     

铁屑法处理含染料废水中铁屑表面化学研究

采用扫描电镜和X射线光电子能谱技术对铁屑法处理含染料废水中铁屑反应前后的表面进行了研究,结果表明：铁屑表面主要由Fe,C,O,S,Si以及其它构成铸铁的微量元素等组成．铁屑表面快速氧化是染料脱色的关键和前提步骤,铁屑表面铁的羟基氧化物增多是铁屑失活的重要原因．超声方法是铁屑再生方法之一,铸铁中的硫有助于染料脱色．     

Equilibrium studies on the adsorption of acid dye into chitin

We report the adsorption isotherm of acid dye on the surface of chitin, a unique solid adsorbent. Adsorption process offers an attractive benefit for a dyeing house treatment. Influences of essential kinetic parameters such as adsorbent particle size, reaction temperature governing the dye adsorption have been investigated. Adsorptions isotherms of dye on chitin were developed and the equilibrium data fitted well to the Langmuir, Freundlich and Redlich Peterson isotherm model. At optimum conditions maximum dye adsorption capacity of chitin estimated with the Langmuir 44.0, 85.0, 104.3 mg/g and 85.0, 114.10, 113.62 mg/g adsorbent. The results showed that chelating polymer of chitin could be considered as potential adsorbents for acid dye removal from dilute solution.     

双频超声辐射协同H2O2降解偶氮染料废水的研究

采用双频超声协同H₂O₂降解酸性绿20染料废水,考察超声功率密度、染料初始浓度和pH、饱和气体及H₂O₂投加量等因素对酸性绿20降解效果的影响,结果表明,在给定实验条件下,双频降解效果优于单频超声波,且降解率随超声功率密度的增大而增大。酸性条件有利于酸性绿20的降解,当染料废水初始pH=4可取得最佳的降解效果;酸性绿20的降解效率随染料初始浓度的增大而降低,其优化初始浓度为40 mg/L。在反应体系中通入空气并投加H₂O₂,可取得最佳的降解效果。在优化实验条件下, 采用双频超声协同H₂O₂降解5 h,酸性绿20的色度和TOC去除率分别为94.6%和36.3%;分析降解前后的紫外可见光谱图可知,酸性绿20并非完全被降解为CO₂和H₂O,而是生成一些小分子有机中间体。     

海藻酸钠固化香蕉皮粉吸附染料废水

利用海藻酸钠固化农业废弃物-香蕉皮粉制备成吸附剂,以甲基紫为例,对有机染料废水进行吸附研究,考察吸附时间,温度和甲基紫/吸附剂用量比对吸附的影响。实验结果表明,该吸附剂能有效地吸附掉溶液中的甲基紫,其吸附率随温度的增加而下降,最佳吸附时间为2 h,甲基紫/吸附剂的最佳用量比为1∶5。在25℃、pH 7、甲基紫起始浓度10 mg/L,吸附剂浓度50 mg/L的条件下,吸附2 h,吸附率为92.64%,吸附量为185.3 mg/g。研究了相应的Langmuir、Freundlich吸附等温线和准一级、准二级动力学方程,结果表明甲基紫的吸附动力学数据与Freundlich吸附等温线和准二级动力学方程有更好的相关性,同时该吸附剂具有较好的重复利用率。     

磁芬顿处理酸性黑10B模拟废水的实验研究

研究不同磁化时间、磁场强度和催化氧化各种影响因素下芬顿试剂对酸性黑10B染料模拟废水的去除率。结果表明:对于100mL酸性黑10B染料模拟废水,在pH=3,FeSO4.7H2O=500mg,H2O2=0.4mL条件下,反应20min,COD去除率达90.3%。外加磁场磁场强度为427.8mT的作用下,磁化反应20min,COD的去除率提高了3.7%。     

紫外-可见分光光度法用于染料废水絮凝脱色效果测定的研究

染料废水絮凝处理后的脱色率是检验絮凝剂絮凝效果的重要指标。文章通过测定废水絮凝处理前后吸光度值的变化 ,从而精确计算出脱色率 ,可避免传统目视比色法带来的人为误差。采用分光光度法测定染料废水絮凝脱色率 ,方法简单、易掌握