Fe-PTFE-nano-PbO_2/Ti电极电催化氧化对硝基酚废水研究

研究了模拟废水对硝基酚(p-NP)的电化学降解情况,实验中以Fe-PTFE-nano-PbO2/Ti为阳极,石墨为阴极,讨论了电流密度、p-NP初始浓度、电解质(Na2SO4)浓度、溶液初始pH这些因素对p-NP降解的影响。实验表明,电流密度越大,生成的·OH更多,去除效果越好;p-NP初始浓度越小,电解速度高于扩散速度,反应速率越快,浓度越高,产生的更难降解的与p-NP竞争有机物中间产物越多,反应速率越低;Na2SO4浓度越大,SO42-产生的中间产物因具有氧化作用,在一定浓度范围内促进有机物的降解;溶液pH越小,析氧电位越低,越不容易发生析氧副反应,提高降解效率,有利于有机物降解。实验中电流密度20 mA/cm2,p-NP起始浓度100 mg/L,Na2SO4浓度0.02 mg/L,pH为5.1时条件最优,有机物降解效果较好,120 min时p-NP去除率99.23%,COD去除率77.38%,矿化率较高。     

电-多相催化反应器处理苯胺废水的研究

提出一种基于复极性固定床反应器处理有机废水的新技术:电-多相催化技术,用于苯胺废水的处理。实验结果表明,该技术对苯胺具有较好的催化降解的效果。在外加电压30V、电解时间1h、支持电解浓度800mg/L、pH值中性的条件下,降解COD为800mg/L的苯胺废水,去除率可达36.53%,同时对不同因素的影响原因进行了分析。     

Ti/SnO2-Sb2O5/PbO2阳极电化学氧化降解苯甲酸研究

文章研究了TI/SnO2-Sb2O5/Pbo2在两室电解池中氧化降解苯甲酸的性能,主要考察了电流密度、初始pH值、初始苯甲酸浓度和支持电解质这四个参数对TOC去除效率的影响。实验表明在电流密度为30 mA/cm2,初始苯甲酸浓度为0.5 mmol/L,支持电解质(Na2SO4)为0.1mol/L的条件下,经过6 h反应...     

铁阳极电解脱色直接黄11染料模拟废水

研究采用铁为阳极电化学法处理直接黄11染料模拟废水脱色性能的影响进行研究。影响因素包括:电流密度、pH值、染料浓度和电解质浓度。研究结果表明,电流密度大有利于染料废水脱色,但能耗消耗大;初始溶液在中性条件下不仅取得很好的处理效果,而且脱色能耗较低;随着染料初始浓度增加脱色率和脱色能耗降低的趋势;随着电解质浓度升高染料脱色率下降的趋势,脱色能耗先减少,然后缓慢增大。在染料初始浓度50 mg/L、pH值为7.11、电流密度2.083 mA/cm2、电解质Na2SO4浓度0.01 mol/L、温度20℃、搅拌速度600 r/min、电解时间60min条件下,脱色率达到92.2%,脱色能耗1.709 kW.h/kg染料。     

A high activity of Ti/SnO2-Sb electrode in the electrochemical degradation of 2,4-dichlorophenol in aqueous solution

Electrochemical degradation of 2,4-dichlorophenol (2,4-DCP) in aqueous solution was investigated over Ti/SnO₂-Sb anode. The factors influencing the degradation rate, such as applied current density (2-40 mA/cm²), pH (3-11) and initial concentration (5-200 mg/L) were evaluated. The degradation of 2,4-DCP followed apparent pseudo first-order kinetics. The degradation ratio on Ti/SnO₂-Sb anode attained > 99.9% after 20 min of electrolysis at initial 5-200 mg/L concentrations at a constant current density of 30 mA/cm² with a 10 mmol/L sodium sulphate (Na2SO4) supporting electrolyte solution. The results showed that 2,4-DCP (100 mg/L) degradation and total organic carbon (TOC) removal ratio achieved 99.9% and 92.8%, respectively, at the optimal conditions after 30 min electrolysis. Under this condition, the degradation rate constant (k) and the degradation half-life (t_1/2) were 0.21 min^-1 and (2.8±0.2) min, respectively. Mainly carboxylic acids (propanoic acid, maleic acid, propanedioic acid, acetic acid and oxalic acid) were detected as intermediates. The energy efficiencies for 2,4-DCP degradation (5-200 mg/L) with Ti/SnO₂-Sb anode ranged from 0.672 to 1.602 g/kWh. The Ti/SnO₂-Sb anode with a high activity to rapid organic oxidation could be employed to degrade chlorophenols, particularly 2,4-DCP in wastewater.     

电凝聚法对活性红241染料废水脱色实验的研究

通过实验研究了铁阳极电凝聚法对活性红241废水的脱色处理效果,考察了电流密度、染料溶液初始pH值、电介质浓度及种类、温度、染料浓度对染料脱色效率的影响,结果表明:在一定实验条件下活性红241模拟废水的脱色效率达97%;电流强度、染料浓度、电解液初始pH值、电解液温度、电解质的浓度及种类对脱色效率均有不同程度的影响;以铁为阳极的原位电凝聚处理活性红241模拟废水混凝过程中主要作用机理以吸附电性中和为主;电凝聚过程中活性红241发生了阴极还原反应.     

铁阳极电凝聚处理活性黑KN-B染料废水动力学分析

采用铁为阳极的原位电凝聚方法处理活性黑KN-B染料废水。以活性黑KN-B在特征吸收波长600nm和255nm的吸光度变化为分析指标,考察了电流密度、染料溶液初始pH值、电介质浓度及种类、温度、染料浓度等影响因素对染料废水脱色过程及脱色速率常数的影响。同时根据化学反应动力学理论对其脱色的动力学过程及脱色机理进行了初步探讨与分析。实验结果表明:染料溶液的脱色反应符合一级反应动力学过程;电流密度、染料浓度、染料溶液初始pH值及电解质的种类及浓度对一级反应速率常数影响显著,而染料溶液温度对一级反应速率常数的影响较小;染料废水的脱色过程是电凝聚和染料还原共同作用的过程。     

BDD电极电化学氧化降解废乳化液

废乳化液是机械加工过程产生的一种高浓度有机废液,属于危险废物.通过实验研究了 BDD电极电化学氧化处理废乳化液的降解效果,考察了电流密度、电解质种类及浓度、初始pH值和反应温度对降解效率的影响.结果表明:BDD电极电化学氧化可有效降解废乳化液中的有机物,当采用Na2S2O8为电解质,电流密度超过60 mA/cm2时,降...     

电沉积ZnO膜光电催化降解4-硝基酚研究

用硝酸锌水溶液作电解质,采用阴极电沉积法在玻碳电极上制备了具有光电化学活性的氧化锌(ZnO)薄膜。以ZnO膜电极为工作电极对4-硝基酚进行了光电催化降解处理,系统研究了外加偏压、4-硝基酚浓度、电解液浓度以及pH值对4-硝基酚在ZnO膜电极上的光电催化降解效果的影响。结果表明:在外加偏压为1.0V,电解液浓度为0.1mol/L,溶液为近中性条件(pH为6.3)时对0.05mmol/L的4-硝基酚2小时的降解效率达到了98.8%。     

电化学方法处理分散金黄HF-3R废水的研究

采用钛网作为阳极,钛网为阴极,对分散金黄HF-3R模拟染料废水进行了实验研究,探讨了电解时间、电解质种类及浓度、电流密度以及进水浓度对分散金黄HF-3R脱色效率的影响。结果表明:增加电流密度,提高电解质浓度,延长反应时间有利于分散金黄HF-3R色度的脱除,对于含有110 mg/L的分散金黄HF-3R溶液,电解质NaCl的质量浓度为20.0 g/L,电流密度为2.5 A/dm2,电解时间25 min,溶液的脱色率达到99%,COD去除率为98%。     

TiO2电极光电催化氧化处理水体中的蒽

为了探究光电催化体系对水体中多环芳烃（PAHs）的降解效果,采用TiO₂电极在紫外光照射下进行了光电催化氧化处理多环芳烃——Ant（蒽）的研究.分别比较了光电催化（PEC）、光催化（PC）和电化学氧化（EC）体系对Ant的降解效果.并探究了电流密度、初始pH、初始ρ（Ant）和腐植酸（HA）等对Ant降解效果的影响;同时,采用伪一级动力学对降解反应速率进行了拟合分析并对中间产物的含量及Ant的降解机理进行了研究.结果表明:在相同电流密度和反应时间等条件下,PEC体系对Ant的降解率均高于PC和EO体系;电流密度对Ant降解影响不大,在电流密度为0.05 mA/cm2条件下,反应30 min后,Ant的降解率能达到98.5%,体系中中间产物有蒽酮（AT）、蒽醌（AQ）等物质,其浓度呈现先增加后降低的趋势;初始pH对中间产物AQ的生成影响较大;初始浓度对反应速率影响较大,初始浓度增加3倍,反应速率降低了近44%,但Ant的降解率相差不到1%;HA的存在使得Ant降解率降低了7.5%,反应速率降低了近83%.      

Electro-oxidation of Ni (II)-citrate complexes at BDD electrode and simultaneous recovery of metallic nickel by electrodeposition

The simultaneous electro-oxidation of Ni (II)-citrate and electrodeposition recovery of nickel metal were attempted in a combined electro-oxidation-electrodeposition reactor with a boron-doped diamond (BDD) anode and a polished titanium cathode. Effects of initial nickel citrate concentration, current density, initial pH, electrode spacing, electrolyte type, and initial electrolyte dosage on electrochemical performance were examined. The efficiencies of Ni (II)-citrate removal and nickel metal recovery were determined to be 100% and over 72%, respectively, under the optimized conditions (10 mA/cm², pH 4.09, 80 mmol/L Na₂SO₄, initial Ni (II)-citrate concentration of 75 mg/L, electrode spacing of 1 cm, and 180 min of electrolysis). Energy consumption increased with increased current density, and the energy consumption was 0.032 kWh/L at a current density of 10 mA/cm² (pH 6.58). The deposits at the cathode were characterized by scanning electron microscopy (SEM), energy-dispersive spectrometry (EDS), X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS). These characterization results indicated that the purity of metallic nickel in cathodic deposition was over 95%. The electrochemical system exhibited a prospective approach to oxidize metal complexes and recover metallic nickel.     

零价铁与过硫酸盐异相芬顿降解活性艳橙X-GN

采用零价铁(Fe~0)与过硫酸盐构建异相类芬顿体系,由Fe0腐蚀释放Fe~(2+)催化S_2 O_8~(2-)产生硫酸根自由基快速降解偶氮染料活性艳橙,考察了初始p H值、Fe~0投加量、过硫酸盐投加量和温度对降解过程的影响。结果表明,当活性艳橙初始浓度为100 mg/L、pH值为7、Fe~0投加量为0.5 g/L、过硫酸盐投加量为1 mmol/L和反应温度为30℃时,反应60 min后活性艳橙降解率达到92.6%。酸性条件和提高反应温度均有利反应的进行,而且活性艳橙的降解率在初始pH值为9时也高于90%。反应过程符合准一级动力学,表观反应速率常数k为0.0513 min~(-1)(30℃)。UV-Vis扫描显示,活性艳橙的发色基团在反应过程中被破坏。由Fe~0与S_2O_8~(2-)构成的异相Fenton体系可作为一种高效手段用于染料废水的处理。     

Electrochemical incineration of dimethyl phthalate by anodic oxidation with boron-doped diamond electrode

The anodic oxidation of aqueous solutions containing dimethyl phthalate (DMP) up to 125 mg/L with sodium sulfate (Na2SO4) as supporting electrolyte within the pH range 2.0–10.0 was studied using a one-compartment batch reactor employing a boron-doped diamond (BDD) as anode. Electrolyses were carried out at constant current density (1.5–4.5 mA/cm2). Complete mineralization was always achieved owing to the great concentration of hydroxyl radical (.OH) generated at the BDD surface. The e ects of pH, apparent current density and initial DMP concentration on the degradation rate of DMP, the specific charge required for its total mineralization and mineralization current e ciency were investigated systematically. The mineralization rate of DMP was found to be pH-independent and to increase with increasing applied current density. Results indicated that this electrochemical process was subjected, at least partially, to the mass transfer of organics onto the BDD surface. Kinetic analysis of the temporal change of DMP concentration during electrolysis determined by High Performance Liquid Chromatography (HPLC) revealed that DMP decay under all tested conditions followed a pseudo first-order reaction. Aromatic intermediates and generated carboxylic acids were identified by Gas Chromatography- Mass Spectrometry (GC-MS) and a general pathway for the electrochemical incineration of DMP on BDD was proposed.     

污染土壤淋洗液中六氯苯的电化学法处理研究

采用电化学稳定性较好的钛基镀RuO2为阳极,以不锈钢板为阴极,对污染土壤淋洗液中的六氯苯进行电化学处理,研究了溶液初始pH值、HCB初始浓度、电解时间、电解质浓度、外加电压等因素对六氯苯处理效果的影响。所得最佳工艺条件为:用TX-100做增溶剂时,在HCB初始浓度300μg/L、溶液初始pH为3,电解质浓度为1%,外加电压为6V时,电解3hHCB去除率为60.3%。气相色谱分析表明:阴极还原脱氯是HCB电化学降解的主要途径,检出的降解产物有五氯苯、1,2,4,5-四氯苯和1,2,3,4-四氯苯。     

纳米零价铁对γ-HCH的降解效果及机理研究

采用液相还原法制备纳米零价铁(nZVI),透射电镜表征显示,其粒径<20nm,在介质中处于团簇状态.利用所合成的nZVI对γ-HCH进行了还原脱氯研究,结果表明,nZVI具有很高的表面反应活性,当用量为0.5g/L时,反应90min,对2.5mg/L的γ-HCH去除率达90%以上.nZVI对γ-HCH的去除符合准一级反应动力学方程,其反应速率和去除率与pH值、nZVI添加量、γ-HCH初始浓度、共存离子等因素有关.反应速率随pH值的减小而增大,NO3-对反应速率有较强的抑制作用,Ca2+,Mg2+和SO42-对反应速率影响不大.利用GC-MS检测到降解产物四氯环己烯(TeCCH)和氯苯(CB)的存在,推测反应机制为双氯脱除反应和脱氯化氢反应.     

工业铁屑(零价铁)还原硝基苯影响因素研究

通过静态试验,研究了初始硝基苯浓度、零价铁含量和pH值对零价铁还原硝基苯的影响.结果表明,在pH值为7,硝基苯初始浓度为311.25mg/L条件下,零价铁含量分别是100、50和25g/L时,硝基苯的降解速率常数分别是-0.02991、-0.0165和-0.00783min-1,零价铁含量越大硝基苯的降解速率越大;在pH值为7,零价铁含量为50g/L条件下,硝基苯的初始浓度分别是127.5,311.25,467.01mg/L时,硝基苯的降解速率常数分别是-0.01532、-0.01235和-0.00891min-1;在硝基苯初始浓度为311.5mg/L,零价铁含量为50g/L条件下,pH值为2.94时,硝基苯的降解速率最大,pH值为7其次,pH值为11.89时的降解速率最小,酸性环境利于零价铁还原硝基苯的进行.由此可见,硝基苯浓初始浓度、零价铁含量和pH值对硝基苯的还原具有重大影响.     

恒电流下电生成活性氯降解活性艳红K-2BP

以Pt片作工作电极和辅助电极,NaCl为支持电解质,研究了活性艳红K-2BP的电化学脱色降解行为。通过循环伏安法与整体电解获得其电化学反应特性,经调控溶液的性质考察了不同体系对其降解效果的影响。实验结果表明,在pH为6、NaCl浓度为0.2mol/L、电流密度为60mA/cm2和室温条件下,30mg/L的活性艳红K-2BP经电化学降解1h,脱色率可达94.4%。pH对活性艳红K-2BP的脱色率影响较大,初始pH越小,脱色率越高。     

电催化氧化法处理阳离子染料废水的试验研究

以结晶紫作为阳离子染料,采用电催化氧化法对阳离子染料溶液进行了电解脱色处理试验,研究了电流密度、电解质种类、电解质浓度、pH值等对该溶液脱色率的影响,测定了电解时溶液中生成的余氯浓度和溶液的紫外-可见吸收光谱曲线,并对不同电解时间的溶液的吸光度进行了归一化计算。结果表明:随着电解时间的延长,水溶液中活性氯浓度不断上升,经一定时间后达到最大值;在电催化和活性氯的协同作用下,阳离子染料结晶紫分子中的大π共轭体系被破坏、苯环结构基本瓦解,溶液快速脱色;在电流密度为5.1mA/cm2、NaCl浓度为4g/L、pH值为9.41的条件下,初始浓度为100mg/L的结晶紫溶液经过20min的电解,其脱色率可高达98.31%。     

UV/H_2O_2/草酸高铁铵体系中孔雀石绿的光降解研究

研究了UV/H2O2/草酸高铁铵体系下孔雀绿(Malachite green,MG)光降解过程中的影响因素,包括MG的初始浓度、初始pH值、投加H2O2浓度和草酸高铁铵浓度等。结果表明:MG初始浓度越低光降解越快,碱性条件有利于MG的降解,其最佳降解pH为11.0;随H2O2浓度的增加,MG降解率先增加后减少,在100mmol/L时,降解率最高;MG降解率随草酸高铁铵浓度增加而增加,于10.0mmol/L时MG降解率最高;UV/H2O2/草酸高铁铵体系的降解效果较强,交叉实验结果表明H2O2:草酸高铁铵浓度比在1～20:1时降解率均高于。因此该体系具有快速、简单、经济并高效率等特点,可应用于染料废水的降解和脱色工艺中。