STUDY ON THE TREATMENT OF 3—PHENOXY—BENZALDEHYDE INDUSTRIAL WASTEWATER WITH POLYMERIC ADSORBENT

In this paper the two effluents from PBA (3- phenoxy -benzaldehyde) productionprocess were treated by polymeric adsorbent CHA-lll. PBA or PBC(3-phenoxybenzoic acid) was recovered from the wastewater in the process of neutralization. As asecondary treatment method, adsorption with CHA-lll showed better efficency thanPhotocatalytic decomposition and solvent extraction. The optimal technologicalparameters were: adsorption: current velocity: 2.0 BV/hr(bed volume per hour), roomtemperature, desorption: current velocity:10 BV/hr 80℃8% sodium hydroxideaqueous solutions. In conclusion, 90.9% COD in the neutralizing wastewater and98. 4% COD in the hydrolysis wastewater are removed successfully.

Preparation and characterization of Fe_2O_3-CeO_2-TiO_2/γ-Al_2O_3 catalyst for degradation dye wastewater

In order to develop a catalyst with high activity for catalytic wet oxidation （CWO） process at room temperature and atmospheric pressure, Fe2O3-CeO2-TiO2/γ-Al2O3 catalyst was prepared by consecutive impregnation method and the prepared parameters were optimized. The structure of the catalyst was characterized by BET, XRF, SEM and XPS technologies, and the actual wastewater was used to investigate the catalytic activity of Fe2O3-CeO2-TiO2/γ-Al2O3 in CWO process. The experimental results showed that the prepared catalyst exhibited good catalytic activity when the doping amount of Ti was 1.0 wt% （the weight ratio of Ti to carriers）, and the middle product, Fe2O3-CeO2-TiO2/γ-Al2O3, was calcined in 450℃ for 2 h. The CWO experiment for treating actual dye wastewater indicated that the COD, color and TOC of actual wastewater were decreased by 62.23%, 50.12% and 41.26% in 3 h, respectively, and the ratio of BOD5/COD was increased from 0.19 to 0.30.

Degradation analysis of A^2/O combined with AgNO3 + K2FeO4 on coking wastewater

In this work, a coking wastewater was selected and a biochemical Az/O treatment device for fractional degradation was designed and employed. After each stage of the treatment, the products were analyzed through gas chromatography-mass spectroscopy （GC-MS） to determine their composition. Finally, AgNO3 ＋ K2FeO4 was used as an advanced deep catalytic oxidation treatment. It was concluded from the analysis that cyclic organics could be degraded and the chemical oxygen demand （COD） was controlled within 50 mg. L-1, in line with the target value, Meanwhile, the spectra obtained from the GC-MS were in accordance with the conclusions reached based on the COD. The research results showed that all hard-degradable organics in coking wastewater could be eliminated through the A2/O bio-membrane treatment and the advanced treatment of making use of K2FeO4 as an oxidant and Ag＋ as a catalyst, the catalytic efficiency with Ag＋ as a catalyst of K2FeO4 was very high. Ag＋ could evidently improve the oxidation capacity of K2FeO4 to wastewater in its short stability time, and this is an important innovation.

TREATMENT AND RESOURCE REUSE OF WASTEWATER FROM NAPHTHOL AS-E PRODUCTION PROCESS

The wastewater from naphthol As-E production process was treated with macroporous polymeric adsorbent NDA-222. Naphthol As-E and 2,3-acid in the wastewater could be removed completely and the Total Organic Carbon (TOC) of the wastewater was decreased more than 98% from 1655mg/L to less than 30mg/L. The adsorbates could be desorbed completely with NaOH aqueous solution.

深圳沙河水质净化厂及3#调蓄池工艺设计要点及特点

沙河水质净化厂设计规模为旱季10万m^(3)/d,雨季额外处理10万m^(3)/d初期雨水,3#调蓄池设计规模为15.3万m^(3)。污水及初期雨水处理采用预处理+多段厌氧-好氧(AO)+二沉池+磁混凝高效沉淀池+精密过滤+紫外消毒的工艺,出水水质执行深圳市地方标准《水质净化厂出水水质规范》(DB 4403/T 64—2020)B级标准,其中总氮(TN)≤8 mg/L。污泥处理采用离心浓缩+低温热干化工艺,处理后含水率≤40%。作为国内首个将水质净化厂与初期雨水调蓄池深度融合的全地下式水污染治理综合体,项目采用多段AO耦合“3W法”(Wet-Weather-Wastewater法),并以此为核心提出了一种实现大规模污水及初期雨水高标准协同处理的系统解决方案,且无需大幅度增加污水处理设施体量、投资和运行成本。

磁性Fe_(3)O_(4)纳米颗粒强化微藻废水处理及产油效果的研究

针对微藻规模化废水处理过程中污染物去除效果不稳定、采收困难及藻细胞油脂提取率低等问题,以磁性Fe_(3)O_(4)纳米颗粒作为强化剂和絮凝剂,考察其对微藻废水处理效果、藻细胞生物量和油脂含率及后续微藻采收的提升作用。结果表明,在20 mg/L浓度的Fe_(3)O_(4)NPs作用下,斜生栅藻对污水中COD、NH_(4)^(+)-N和TP的去除率分别达到98.82%、93.25%和78.22%,小球藻生物量增加49.91%,总脂产量增加66.92%;投加30 mg/L浓度的Fe_(3)O_(4)NPs可以在10 min内获得94%的小球藻收获率;当投加浓度增加到100 mg/L时,小球藻细胞的油脂含率由23.27%提升至38.66%,总脂产量增加68.38%。为制定集促进微藻净水效率提高、藻细胞生物量和油脂含率提升及藻细胞快速采收等多种功能于一体的Fe_(3)O_(4)NPs投加策略提供技术参考。

Fe_(3)O_(4)/粉煤灰/PVA复合材料的制备及其吸附砷(Ⅴ)的性能

利用工业废弃物粉煤灰、四氧化三铁(Fe_(3)O_(4))和聚乙烯醇(Polyvinyl alcohol,PVA)制得一种新型复合材料,并研究其吸附溶液中五价砷[As(Ⅴ)]的性能。采用傅里叶变换红外光谱仪(FT-IR)、X-射线衍射仪(XRD)、扫描电镜(SEM)、比表面积分析仪(BET)表征复合材料的结构、形貌。以复合材料为吸附剂的静态吸附实验分别考察了pH、吸附剂的用量、吸附时间、温度等因素对吸附溶液中As(Ⅴ)的影响。实验结果表明,复合材料表面存在多种类型的官能团,孔径分布范围3~10 nm;在温度298~318 K下,吸附动力学符合伪二级动力学模型,吸附等温线符合Langmuir模型;复合材料吸附As(Ⅴ)的最大吸附量为20.26 mg·g^(-1)。

Mass Transfer-Promoted Fe^(2+)/Fe^(3+)Circulation Steered by 3D Flow-Through Co-Catalyst System Toward Sustainable Advanced Oxidation Processes

Realizing fast and continuous generation of reactive oxygen species(ROSs)via iron-based advanced oxidation processes(AOPs)is significant in the environmental and biological fields.However,current AOPs assisted by co-catalysts still suffer from the poor mass/electron transfer and non-durable promotion effect,giving rise to the sluggish Fe^(2+)/Fe^(3+)cycle and low dynamic concentration of Fe^(2+)for ROS production.Herein,we present a three-dimensional(3D)macroscale co-catalyst functionalized with molybdenum disulfide(MoS_(2))to achieve ultra-efficient Fe^(2+)regeneration(equilibrium Fe^(2+)ratio of 82.4%)and remarkable stability(more than 20 cycles)via a circulating flow-through process.Unlike the conventional batch-type reactor,experiments and computational fluid dynamics simulations demonstrate that the optimal utilization of the 3D active area under the flow-through mode,initiated by the convectionenhanced mass/charge transfer for Fe^(2+)reduction and then strengthened by MoS_(2)-induced flow rotation for sufficient reactant mixing,is crucial for oxidant activation and subsequent ROS generation.Strikingly,the flow-through co-catalytic system with superwetting capabilities can even tackle the intricate oily wastewater stabilized by different surfactants without the loss of pollutant degradation efficiency.Our findings highlight an innovative co-catalyst system design to expand the applicability of AOPs based technology,especially in large-scale complex wastewater treatment.

Fe/γ-Al_(2)O_(3)的制备及其在含氟废液吸附处理中的应用

本文以γ-Al_(2)O_(3)为吸附剂主体,采用FeSO_(4)·7H_(2)O溶液结合超声波技术对γ-Al_(2)O_(3)进行改性得到载体活性氧化铝(Fe/γ-Al_(2)O_(3))。首先研究了Fe/γ-Al_(2)O_(3)制备过程中FeSO_(4)·7H_(2)O投加量、FeSO_(4)·7H_(2)O溶液的pH值以及γ-Al_(2)O_(3)投加量对Fe/γ-Al_(2)O_(3)除氟效果的影响;最后经过静态吸附处理,研究了吸附剂Fe/γ-Al_(2)O_(3)的投加量、吸附时间以及含氟废液pH值对F-去除效果的影响。结果表明,当FeSO_(4)·7H_(2)O投加量为0.1mol·L^(-1)、pH值为3~5、γ-Al_(2)O_(3)与FeSO_(4)·7H_(2)O溶液的质量比为5∶1时,得到的Fe/γ-Al_(2)O_(3)除氟效果最好;当Fe/γ-Al_(2)O_(3)的投加量为40g·L^(-1)、吸附时间为15h、含氟废液pH值为3~9时,除氟效果最好,且F-的去除率远高于同条件下的γ-Al_(2)O_(3)吸附剂。

微气泡O_(3)/H_(2)O_(2)深度处理某树脂厂二级出水效果与机制

针对传统生物降解对树脂废水中苯系物、聚乙烯醇等大分子有机物降解效果不好、达不到排放标准的问题,构建微气泡O_(3)/H_(2)O_(2)体系,对某树脂厂二级出水进行深度处理。对比了微气泡O_(3)曝气与普通O_(3)曝气的化学需氧量(COD)降解效果,考察了进气O_(3)浓度、H_(2)O_(2)浓度、初始pH对微气泡O_(3)/H_(2)O_(2)体系降解COD效果的影响,通过总有机碳验证体系的矿化效果,通过电子顺磁共振谱仪(EPR)检测微气泡O_(3)/H_(2)O_(2)体系中的活性物质,最后通过气相色谱质谱联用仪(GC-MS)分析降解前后废水中主要有机物的种类,并对微气泡O_(3)/H_(2)O_(2)体系降解COD的机制与路径进行分析。结果表明:1)微气泡O_(3)/H_(2)O_(2)体系中微气泡粒径主要分布在10~50μm,平均粒径为32.82μm;与普通O_(3)曝气方式进行对比,微气泡O_(3)体系对COD降解率更高,说明微气泡可以延长O_(3)气泡上升时间,增加O_(3)气泡比表面积,提高O_(3)传质系数和利用率。2)微气泡O_(3)/H_(2)O_(2)体系降解COD,当O_(3)浓度为60 mg/L、H_(2)O_(2)浓度为29.37 mmol/L、pH为7时,反应60 min后,微气泡O_(3)/H_(2)O_(2)体系对树脂厂二级出水的COD降解率为89.53%,处理后出水COD为15.05 mg/L,可达到GB 31572—2015《合成树脂工业污染物排放标准》。3)EPR试验表明,H_(2)O_(2)可以促进微气泡O_(3)体系产生更多的超氧自由基(·O_(2)^(-))和羟基自由基(·OH),从而提高体系的氧化能力和对COD的降解效果。根据GC-MS结果推断O_(3)/H_(2)O_(2)体系降解COD的可能路径,即树脂厂二级出水以长链烷烃和环烷烃类为主的大分子物质在O_(3)的作用下断链、开环,在·OH等自由基的作用下矿化或降解为以小分子有机酸为主的小分子物质。

Photocatalytic activity of TiO_2 supported SiO_2-Al_2O_3 aerogels prepared from industrial fly ash

A ternary composite of TiO2 and a SiO2-Al2O3 aerogel with good photocatalytic activity was prepared by a simple sol-gel method with TiO2 nanoparticles and SiO2-Al2O3 aerogels derived from industrial fly ash.The structural features of the TiO2/SiO2-Al2O3 aerogel composite were investigated by X-ray powder diffraction,Fourier transform infrared spectroscopy,transmission electron microscopy,gas adsorption measurements and diffuse reflectance UV-visible spectroscopy.The optimal conditions for photocatalytic degradation of 2-sec-butyl-4,6-dinitrophenol（DNBP],included an initial DNBP concentration of 0.167 mmol/L at pH = 4.86 with a catalyst concentration of 6 g/L,under visible light irradiation for 5 h.A plausible mechanism is proposed for the photocatalytic degradation of DNBP.Our composite showed higher photocatalytic activity for DNBP degradation than that of pure TiO2.This indicates that this material can serve as an efficient photocatalyst for degradation of hazardous organic pollutants in wastewater.

用H2O2/Fe^3＋处理高浓度含甲醛废水的研究

研究采用H2O2/Fe3+催化氧化处理高浓度含甲醛废水,探讨了双氧水和催化剂投加量、反应pH及反应温度等操作条件对处理效果的影响,并通过酸溶解回用失活催化剂。结果表明,较优的操作条件为:H2O2/COD(质量比)=2.2~2.6,Fe3+/H2O2(摩尔比)=0.048~0.058,反应pH1.80~2.68,反应温度50℃,反应时间40 min;在上述操作条件下,甲醛去除率达到99%以上,COD去除率达到85%以上。失活的催化剂可通过稀酸溶解后循环使用,其效果与三价铁盐作催化剂的基本相同。采用H2O2/Fe3+处理含甲醛废水具有比采用H2O2/Fe2+较优的效果。

粉煤灰合成沸石用于含Cr^(3+)废水处理的应用研究

研究了粉煤灰合成沸石处理含Cr3+废水的性能以及其它几种竞争性阳离子的影响。合成沸石对低浓度(<100 mg/L)含Cr3+废水具有良好的去除效果,去除效率达94%以上。当废水中存在其它阳离子(NH+4、Na+、K+、Ni2+和Ca2+)时,即使其阳离子浓度(以me/L计)达Cr3+的4倍,合成沸石对Cr3+仍表现出了较高的选择性,Cr3+去除效率基本未受影响。对于成分复杂的实际含Cr3+的制革废水,当合成沸石投加量大于5 g/L时,对Cr3+去除率高达99%以上,处理后废水中的Cr3+浓度低于国家规定Cr3+排放限值。因此,粉煤灰合成沸石在处理含Cr3+废水方面具有良好的应用前景。

MoS_(2)/g-C_(3)N_(4)复合纳米催化剂光催化深度处理造纸废水研究

本研究采用N-甲基吡咯烷酮复合MoS_(2)与g-C_(3)N_(4),制得MoS_(2)/g-C_(3)N_(4)复合纳米催化剂。采用X射线衍射仪(XRD)、X射线光电子能谱仪(XPS)、光致发光光谱仪(PL)和扫描电子显微镜(SEM)对复合纳米催化剂进行表征,并利用MoS_(2)/g-C_(3)N_(4)复合纳米催化剂光催化深度处理造纸废水。结果表明,少量MoS_(2)与g-C_(3)N_(4)复合可提高复合光催化剂的光催化活性,反应时间180 min、pH值5、1.5%MoS_(2)/g-C_(3)N_(4)复合纳米催化剂投加量为2 g/L时,对造纸废水的CODCr去除率和色度去除率最高,分别达到63.4%和83.2%。MoS_(2)/g-C_(3)N_(4)的光催化活性有所增强是由于MoS_(2)与g-C_(3)N_(4)的能带结构匹配,降低了光生电子-空穴的复合几率,从而提高了催化剂的光催化活性。

全耦合活性污泥模型(FCASM3)Ⅱ:模型校验

以采用AAO污水处理工艺的德清县狮山污水处理厂作为全耦合活性污泥模型(FCASM3)校验的现场试验基地,分别进行了常规水质指标测定和进水水质特征分析等试验研究.依据现场试验结果,完成了对活性污泥系统生物去除营养物质细观机理模型FCASM3的校验工作.动态校验结果表明,FCASM3模型可以对AAO连续流工艺系统实现较准确的细观模拟,营养物质生物去除过程的动态数值模拟结果与实测结果相一致.

磁混凝-UV/O_(3)深度处理诺氟沙星制药废水工艺研究

以某诺氟沙星制药企业生物处理单元出水为试验用水,探究磁混凝-UV/O_(3)工艺对制药废水深度处理的效果。磁混凝试验中,COD去除方面,聚合硫酸铝铁(PFS)絮凝效果明显优于聚合氯化铝(PAC)和聚合硫酸铝铁(PAFS);COD、色度、浊度去除效果方面,阳离子聚丙酰胺(CPAM)助凝效果明显优于阴离子聚丙酰胺(APAM)及非离子聚丙酰胺(NPAM);48μm磁粉投加量为300 mg/L,PFS投加量为400 mg/L,CPAM投加量为6 mg/L,投加顺序为两段式磁粉+PFS—CPAM。在UV/O_(3)实验中,调整UV/O_(3)工艺:臭氧投加量为26 mg/min,初始pH为9,初始温度为20℃,氧化时间为60 min。经磁混凝-UV/O_(3)联合工艺处理后,出水COD小于30 mg/L,色度小于2倍,浊度低于1 NTU,满足当地《贾鲁河流域水污染物排放标准》(DB 41/908—2014)。

大孔树脂对2-萘胺-3,6,8-三磺酸的吸附性能

研究了大孔弱碱性阴离子交换树脂ND-900与复合功能树脂NDA-99对水中2-萘胺-3,6,8-三磺酸(K酸)的吸附性能.结果表明,2种树脂对K酸的吸附量均随溶液p H值的降低而增大,吸附等温线符合Langmuir模型,ND-900树脂具有比NDA-99更大的K酸吸附容量.树脂表面质子化叔氨基与K酸阴离子之间的静电作用是树脂吸附的主要作用机制,溶液中的硫酸根对K酸具有明显的竞争吸附效应.热力学分析显示,K酸在树脂上的吸附为自发的放热、熵增过程.固定床动态实验结果表明,ND-900树脂对K酸废水的吸附脱附性能良好,且可回收的K酸纯度能达到工业产品的要求.

粉煤灰制沸石负载氧化铜处理活性艳红X-3B废水

以粉煤灰作原材料制备沸石负载氧化铜处理活性艳红X-3B废水。采用正交试验法考察了灰/碱比、煅烧温度、晶化时间和灰/水比对出水COD和色度指标的影响,确定了沸石制备最佳工艺条件为灰/碱质量比1.2∶1、焙烧温度600℃、晶化时间6 h和灰/水质量比1∶11,制备的沸石负载氧化铜催化剂与过氧化氢联合催化氧化处理活性艳红X-3B废水,可使出水中COD和色度的指标由原水中的450 mg.L-1和10 240降至90 mg.L-1和3倍(稀释倍数),相应的去除率分别为80.02%和99.97%。

MgCO_3净化含铬废水的溶液化学

中和沉淀Cr3 + 的 pH范围较窄 (6 .3～ 9.5 )决定了采用NaOH或CaO时投药量必须严格控制 .MgCO3 在溶液中的少量溶解导致体系具备pH缓冲性质 ,且该缓冲 pH值 (pH =8.4)能够满足中和沉淀Cr3 + 的条件 ;Cr3 + 在MgCO3 表面生成Cr(OH) 3 沉淀的界面溶度积 (KSSP=10 -3 3 .50 )小于在溶液中的溶度积 (KSP=10 -3 0 .2 7) ,Cr3 + 在界面区域比在溶液中更易形成氢氧化物沉淀 ;表面沉淀生成之后 ,MgCO3 表现出类似Cr(OH) 3 的动电行为 .采用含MgCO3 矿物菱镁石为净化剂 ,在较低用量下能够净化极高浓度含铬废水 ,不仅净化效果好而且具有沉降速度快、污泥体积小等优点 .

Fe_(2)O_(3)/γ-Al_(2)O_(3)臭氧催化氧化催化剂的制备及性能研究

以γ-Al_(2)O_(3)为催化剂载体原料,Fe_(2)O_(3)为活性组分,制备Fe_(2)O_(3)/γ-Al_(2)O_(3)臭氧催化氧化催化剂。以苯胺为模拟废水探究催化剂活性。对催化剂强度、密度、孔隙率、比表面积进行表征。探究了催化剂最佳制备及应用条件。结果表明:制备的催化剂为粒径4~6 mm球型颗粒,在粘结剂为1%Na_(2)SiO_(3)溶液,成型转速为20~30 r·min^(-1),500℃煅烧时间为3 h条件下,催化剂强度可达186.4 N,密度为1.27 g/cm^(3),孔隙率为58.71%,比表面积可达127.54 m^(2)/g。当臭氧通量为3 g·h^(-1),催化剂投加量为150 g·L^(-1),溶液pH值为9时,反应60 min后,COD去除率达81.40%。