黄铁矿催化类Fenton反应处理阳离子红X-GRL废水

基于对天然矿物黄铁矿进行SEM、EDS表征的基础上,以黄铁矿为非均相类Fenton催化剂,以偶氮染料阳离子红X-GRL为目标污染物,考察了催化剂双氧水用量、溶液初始pH值、阳离子红X-GRL初始浓度、反应时间等因素对染料脱色效果的影响.结果表明,在H2O2浓度为26.6mg/L、矿用量1g/L、溶液初始pH值6.4左右的条件下,反应2min后,染料脱色率达95%左右.进行了黄铁矿在水溶液中的酸性氧化实验并且考察了Fe2+、SO42-浓度及溶液pH随矿重复利用次数的变化规律.初次使用的黄铁矿具有很强的酸性氧化特性,反应过程中伴随着大量Fe2+、SO42-及H+的溶出.染料的快速脱色主要是均相Fenton反应作用的结果.黄铁矿作为一种新的催化剂大大提高了类Fenton反应的催化活性,而且该新型类Fenton反应能克服传统Fenton反应适用pH范围小的局限性,拓展了Fenton反应在废水处理中的应用.

响应面法优化湿式氧化处理阳离子红X-GRL废水

以偶氮染料阳离子红X—GRL为模拟污染物，采用单因素法筛选出温度、氧气分压、搅拌速度、pH、染料质量浓度5个相对重要的影响因素，利用响应面法在60～180℃、氧气分压为0～2倍理论需氧量、搅拌速度为100～700r／min、pH值为2～10、染料质量浓度为500～2931mg／I．范围内探讨了操作条件对染料去除率的影响，并分析了这些影响因素之间的相互作用．采用响应面法对实验结果进行了模型拟和，并对模型进行了实验验证．结果表明，响应面法的预测值与实验值吻合较好，在通过响应面法得到的优化工艺条件下处理X—GRL废水，染料去除率接近100%．

紫萍干体对阳离子红X-GRL的吸附研究

以紫萍干体(简称紫萍)为吸附剂处理含有阳离子红X-GRL(CR X-GRL)的废水,考察了吸附时间、紫萍投加量、pH、温度、共存离子等对吸附行为的影响,探讨了吸附动力学及热力学。结果表明:紫萍对溶液中的CR XGRL吸附速率较快,准二级动力学方程能够准确地描述吸附过程,颗粒内扩散不是唯一的控速步骤;紫萍吸附CR XGRL的适宜pH范围为3~10;Langmuir等温吸附方程能更好地拟合吸附数据,紫萍对CR X-GRL的吸附是一个自发、放热的过程,温度升高吸附量降低;溶液中共存的Na^+使吸附量略有降低,而Cl^-和SO4^2-对吸附几乎没有影响。

纳米TiO_2-ZnO复合光催化剂对阳离子蓝X-GRL的光解脱色研究

将偏钛酸超声分散在Zn(Ac)_2溶液中,以NaOH为沉淀剂,将Zn^(2+)以Zn(OH)_2形式沉淀出来,于300℃煅烧2h,制得了纳米TiO_2-ZnO复合光催化剂,并用X射线衍射(XRD)、比表面和孔径测定(BET)等方法对光催化剂进行表征。系统研究了TiO_2-ZnO复合光催化剂在太阳光下对阳离子蓝染料X-GRL的脱色作用。结果表明,TiO_2和ZnO进行纳米复合,既可以促进光生载流子的电荷分离,又增加了催化剂表面的缺陷和氧空位,加快了阳离子蓝X-GRL的脱色和降解速率。反应物的配比影响着TiO_2-ZnO复合光催化剂的活性,其中配比为1:1(Ti/Zn摩尔比)的纳米TiO_2-ZnO复合光催化剂的光催化性能最好,其比表面积124.85m^2/g,平均孔径为3.42nm。在太阳光下照射1h后,对20mg/L阳离子蓝染料X-GRL溶液的脱色率达到99.15%。动力学研究表明:在实验浓度范围内,TiO_2-ZnO光催化氧化阳离子蓝染料X-GRL符合一级反应规律。

Fe^(2+)/ATP复合催化剂处理阳离子红X-GRL的研究

以凹凸棒分散液为吸附剂,Fe2+/ATP为复合催化剂对印染废水中的阳离子红X-GRL进行处理实验。主要分析了Fe2+负载时间、反应温度和Fe2+溶液浓度对吸附性能的影响以及影响凹凸棒土联用Feton法与阳离子红反应的因数。实验结果显示,制备ATP/Fe2+的合适的条件为:凹凸棒土煅烧温度为400℃;负载铁时间为5 h;负载铁浓度为1 500 mg/L;负载温度为80℃。

载铁沸石催化H_2O_2降解阳离子红X-GRL染料废水

以天然沸石为载体,FeSO4·7H2O溶液为浸渍液,采用浸渍蒸干法制备载铁沸石非均相类Fenton反应催化剂,并用其催化H2O2降解阳离子红X-GRL染料废水。结果表明,浸渍液浓度为0.18 mg/L、煅烧温度为300℃时制备的催化剂铁含量较高,催化效果和稳定性较好。当反应时间为120 min、溶液pH为3.0、催化剂投加量为20.0 g/L、H2O2投加量为30.0 mmol/L时,催化降解效果最佳,对染料废水TOC、色度、COD Cr和TN的去除率分别为60.3%、99.4%、55.5%和49.9%;载铁沸石催化剂重复使用3次后,仍具有一定的催化效果。

GRL:整个喜马拉雅地区具备产生破坏性地震的可能性

印度板块在欧亚板块下方的俯冲形成了地球上最高的山脉,即喜马拉雅山。从西北到东南,喜马拉雅弧（Himalaya arc）绵延近2 400km,这与美国东部到美国西海岸的距离相当。喜马拉雅地区曾发生过一些全球最大的地震,例如2015年4月给尼泊尔造成巨大破坏的廓尔喀地震（Gorkha earthquake）。

阳离子红X-GRL与聚合物乳液的相互作用

利用电导法和表面张力法对染料与聚合物乳液混合液的电导率和表面张力进行测试,并与纯染液或乳液的电导率和表面张力进行对比。结果表明,在聚合物乳液中加入低于缔合浓度的阳离子染料后,能使乳液的电导率增加。在高于缔合浓度的染料溶液中加入聚合物乳液,同样能增加混合液的电导率。在远大于缔合浓度的染料溶液中加入聚合物乳液,混合液的电导率低于染料溶液的导电率。说明染料离子在乳胶粒表面的吸附降低了乳胶粒的导电能力。此时,混合液的表面张力比染料溶液和聚合物乳液低,可能是染料离子与乳液中的表面活性剂在气/液界面上形成了复合物,降低了混合溶液的表面张力。

氧化石墨吸附染料阳离子红X-GRL的性能研究

文章研究了氧化石墨对模拟印染废水阳离子红X-GRL溶液的吸附性能.探讨了氧化石墨的用量、溶液的pH、溶液温度、吸附时间对吸附性能的影响,最终得到了氧化石墨对模拟印染废水阳离子红X-GRL溶液的最佳吸附条件,并对吸附机理进行了探讨.结果表明：对于一定浓度的阳离子红X-GRL溶液,随着氧化石墨用量的增加,氧化石墨对阳离子红X-GRL吸附量先增强后减弱;介质的pH在7～9的条件下,氧化石墨对阳离子红X-GRL吸附性能较好;随着吸附时间的增长,吸附量不断增大最后达到平衡值,一般情况下都在80分钟左右达到平衡,温度对吸附性能影响较小,在45℃时吸附性能相对较好.由X射线衍射图谱（XRD）和红外光谱（IR）得知,氧化石墨中大量的含氧官能团促进了对染料的吸附,其染料本身带正电荷也促进了对阴离子的吸附.

Degradation Mechanism of Cationic Red X-GRL by Ozonation

The degradation mechanism of Cationic Red X-GRL was investigated when the intermediates, the nitrate ion and the pH were analyzed in the ozonation. The degradation of the Cationic Red X-GRL includes the de-auxochrome stage, the decolour stage, and the decomposition of fragment stage. During the degradation process, among the six nitrogen atoms of Cationic Red X-GRL, one is transferred into a nitrate ion, one becomes the form of an amine compound, and the rest four are transformed into two molecules of nitrogen. In the course of the ozonation of Cationic Red X-GRL, the direct attack of ozone is the main decolour effect.

一种新型La掺杂PbO_2电极用于X-GRL降解的研究

为提高PbO_2电极对阳离子红X-GRL的去除效果,利用热分解电沉积法制备稀土La掺杂PbO_2电极(Ti/SnO_2-Sb_2O_3/PTFE-La-β-PbO_2,简写Ti/La-PbO_2).之后,根据电极对X-GRL及其TOC的去除效果,确定La的最佳掺杂比为Pb∶La=200mol∶2mol.通过对电流密度、电解质浓度和X-GRL的初始质量浓度等不同的参数条件优化,确定最佳降解条件为电流密度50mA/cm^2,电解质(Na_2SO_4)浓度0.10mol/L,X-GRL初始质量浓度100mg/L.在此条件下降解2h后,X-GRL及其TOC的去除率分别达到93.48%和52.07%.同时,采用扫描式电子显微镜(SEM)对电极表面进行分析,结果显示La掺杂PbO_2电极表面具有致密的结构和较好的结晶取向,有利于提高电极的催化活性并最终提高X-GRL的矿化程度.最后,利用了循环伏安法(CVs)验证了La掺杂PbO_2电极具有较高的析氧电位和电化学活性.

Characteristics of Cationic Red X-GRL Adsorption by Diatomite Tailings

As secondary mineral resources, diatomite tailings（DT） got from the Linjiang region of China were prepared and characterized by SEM, XRF and XRD. Mono-factor experiments were carried out to investigate the effects of the operation factor, including contact time, adsorbent concentration, initial p H value of the dye solutions, adsorption temperature and initial concentration of cationic Red X-GRL（X-GRL） on the adsorption of X-GRL. The adsorption kinetics, isotherms, thermodynamics and mechanisms for X-GRL were also studied. It was efficient for DT to adsorb X-GRL from aqueous solutions, and it was even discovered to have higher adsorptivity for X-GRL than diatomite concentrate（DC） in our previous test. The adsorption processes fit very well with the pseudo-second-order model and the Langmuir isotherm equation. In addition, various thermodynamic parameters, such as standard Gibbs free energy（ΔG°）, standard enthalpy（ΔH°） and standard entropy（ΔS°） have been calculated. From thermodynamic studies, it was seen that the adsorption was spontaneous and endothermic. The main driving forces of the physical adsorption on DT are electrostatic attraction. The reason why DT showed higher adsorptivity for X-GRL than DC was that there were more clay mineral particles within, which has a remarkable ability of dye adsorption due to its high surface area. DT as a cheap absorbent for X-GRL removal would replace or partially replace the activated carbon.

Decolorization and kinetics of photo oxidizing cationic blue X-GRL by UV/H_2O_2 system

Azo dye cationic blue X GRL, which is non biodegradable toxic organic compound, is decolorized and subsequently mineralized by UV/H 2O 2/N 2 or UV/H 2O 2/air (O 2) system. The effects of initial solution concentration, initial solution pH, and some ions produced during the degradation on the rate of decolorization of cationic blue X GRL were investigated. The photodegradation of cationic blue X GRL approximately follows first order kinetics. The regression curve of the natural logarithm of concentration verus reaction time becomes less linear with initial concentration increasing. Oxygen and appropriate OH\+· generator can accelerate reaction rate. The effect of reaction atmosphere, initial concentration, light intensity on the optimal dosage of H 2O 2 were studied. It was found that the optimal H 2O 2 dosage was determined by UV light intensity. These intermediates of cationic blue X GRL decolorization are biodegradable.

Dynamic and electrical responses of a curved sandwich beam with glass reinforced laminate layers and a pliable core in the presence of a piezoelectric layer under low-velocity impact

The dynamic responses and generated voltage in a curved sandwich beam with glass reinforced laminate(GRL)layers and a pliable core in the presence of a piezoelectric layer under low-velocity impact(LVI)are investigated.The current study aims to carry out a dynamic analysis on the sandwich beam when the impactor hits the top face sheet with an initial velocity.For the layer analysis,the high-order shear deformation theory(HSDT)and Frostig's second model for the displacement fields of the core layer are used.The classical non-adhesive elastic contact theory and Hunter's principle are used to calculate the dynamic responses in terms of time.In order to validate the analytical method,the outcomes of the current investigation are compared with those gained by the experimental tests carried out by other researchers for a rectangular composite plate subject to the LVI.Finite element(FE)simulations are conducted by means of the ABAQUS software.The effects of the parameters such as foam modulus,layer material,fiber angle,impactor mass,and its velocity on the generated voltage are reviewed.

辉光放电电解等离子体降解水中阳离子红XL-GRL

针对染料废水色度高、难生物降解等问题,提出了用辉光放电电解等离子体(GDEP)技术降解染料废水阳离子红XL-GRL的方法。研究了放电电压、溶液浓度对脱色率的影响;测定了GDEP产生的活性物质以及降解过程中溶液的电导率、pH和TOC去除率的变化;分析了降解中间产物成分。结果表明,在600 V电压下,GDEP产生了HO?、H?、O?等高活性物质,他们可使染料分子在130 min内的脱色率达到93.32%,在120 min内TOC去除率达到了65.80%。降解过程中产生了大量带电离子及酸性中间产物。推测可能的降解机理是,阳离子红XL-GRL分子在HO·作用下双键断裂,生成酚类等产物,接着继续降解为中间产物醌,并进一步氧化为小分子有机酸,最终矿化为CO_2、H_2O和简单的无机离子。GDEP在有机染料废水处理方面具有一定的应用前景。

基于对抗残差网络的复杂海况舰船目标类型识别技术研究

近年来随着深度学习理论在水声领域的应用,水中目标识别技术研究取得了巨大进步。然而在工程应用实践中,应用传统的特征提取和分类器方法拼接得到的识别模型难以维持实验室性能,复杂多变的海洋信道使声信号在传感器接收前发生剧烈畸变,导致识别算法出现特征失配和过拟合问题,算法性能急剧下降。针对以上问题,提出了一种对抗残差网络(Adversarial Residual Neural Network, ARNN)模型,利用梯度反向层(Gravity Reversal Layer, GRL)结构和双标签对抗训练的方式补偿了不同水文条件下信道传播之间的差异性,使算法更能够聚焦到能够表征目标本质的特征上,具有更强的鲁棒性和更高的识别率。为验证其有效性,设计了2次实验,分别利用在南海不同海域、不同水文条件下多次采集的舰船目标机械辐射噪声信号,制作训练样本集和测试样本集以训练和测试算法模型。结果表明,相较于支持向量机(Support Vector Machine, SVM)、卷积神经网络(Convolutional Neural Network, CNN)、残差网络(Residual Neural Network, ResNet)等传统网络模型,提出的ARNN模型可以有效缓解特征失配和过拟合问题,使模型具备不同水文条件下的可移植能力,解决人工智能技术在水中目标识别工程应用中的关键问题。

偶氮染料的臭氧氧化机理研究

在3.5L半序批式反应器中进行了阳离子红X-GRL偶氮染料的臭氧氧化实验.用GC/MS定性和GC半定量等方法确定了该染料在臭氧氧化过程中各中间产物的出现次序及浓度变化,结合臭氧与染料反应的化学计量比、反应过程中溶液pH的下降和NO3-的生成,得出了染料的臭氧氧化机理可分为三个阶段,即:助色基脱落、最大吸收峰紫移阶段;生色基分解、染料脱色阶段;无色中间产物进一步降解成有机酸、醛、酮及烷烃等有机小分子阶段.确定了染料分子中6个氮的转化路径,即:其中4个氮原子转化为2分子N2,另外2个氮原子分别转化为1分子有机氮化合物和1分子NO-3.染料的臭氧氧化以直接氧化为主.