含锰氧化物的陶粒催化臭氧氧化苯甲酸废水

分别以含锰氧化物的陶粒和普通陶粒为填料,以O_3体系和催化剂体系作为参照,研究臭氧在填料的异相催化条件下对苯甲酸的去除效果。结果表明:O_3/催化剂体系具有更好的催化效果,同时O_3/催化剂体系可有效改善废水的可生化性,并减少臭氧投加量和处理成本;初始pH为7~12时,废水的苯甲酸去除效果较好,且O_3/催化剂体系的臭氧利用率比O_3/普通陶粒体系、空柱的臭氧利用率更高,在初始pH为7时O_3/催化剂体系的臭氧利用率提升效果最显著。     

沸石载体催化剂研制及其催化臭氧氧化染料废水的研究

以沸石为载体负载不同金属氧化物来制备催化剂,通过试验分析该催化剂催化臭氧氧化染料废水的效果及其影响因素。结果表明:(1)沸石对染料废水的吸附作用很小,总有机碳(TOC)去除率基本维持在3.2%左右,对于后期的试验可以忽略其影响。(2)以沸石作为载体制得的MnO2、Fe2O3、ZnO、CuO负载型催化剂(分别简写为MnO2/沸石、Fe2O3/沸石、ZnO/沸石、CuO/沸石),对臭氧氧化反应均有催化作用,其催化效果依次为MnO2/沸石Fe2O3/沸石ZnO/沸石CuO/沸石。同时,MnO2/沸石的重复使用率高。(3)MnO2/沸石催化臭氧氧化效率及重复使用率均优于以活性炭为载体的MnO2负载型催化剂。(4)臭氧氧化和MnO2/沸石催化臭氧氧化对染料的脱色率基本一致。MnO2/沸石催化臭氧氧化的TOC去除率比臭氧氧化提高较多,对染料废水有很好的处理效果。(5)以沸石为载体制得的负载型催化剂催化臭氧氧化实际染料废水的处理效果较好,具有较高的实用价值。     

微波诱导Fe2O3/沸石负载型催化剂催化氧化焦化废水的研究

以天然沸石为载体,采用尿素均匀沉淀法制备了Fe2O3/沸石负载型催化剂(简称负载催化剂),研究其在微波辐射下对焦化废水的处理效果,探讨了负载催化剂投加量、微波辐射功率、微波辐射时间等因素对处理效果的影响,并考察了负载催化刑的重复使用性能.结果表明,天然沸石、于350℃焙烧得到的负载催化刑和于550℃焙烧得到的负载催化剂...     

一种污泥基陶粒的表面改性及其在含Cr(Ⅵ)废水生物净化中的应用

为提高污泥基多孔悬浮陶粒的表面特性,增加陶粒的生物载体性能,以FeCl_3和Fe_3O_4对陶粒表面进行磁/正电改性,筛选最佳改性条件,分析改性陶粒表面特性,研究生物负载陶粒的除Cr(Ⅵ)能力。结果表明,在FeCl_3浓度1.0 mol·L~(-1),磁粉添加量10%(占FeCl_3质量分数),活化温度为600℃,活化时间为3 h条件下,改性效果最佳。通过XRD表征分析,其结果表明,改性陶粒表面附着一层多孔结构的铁氧层,主要晶相为α-Fe_2O_3和Fe_3O_4。改性陶粒作为生物载体,在pH为4.0,Cr(Ⅵ)浓度为50 mg·L~(-1)的模拟废水中处理8 d,其去除效果可达97.9%,为未改性陶粒的1.9倍。研究结果对推动含Cr(Ⅵ)废水生物处理具有指导意义。     

粉煤灰负载铁离子催化氧化活性黄染料废水

以粉煤灰为载体,制备铁/粉煤灰负载型催化剂,并利用该催化剂催化H2O2氧化降解活性黄染料废水,探讨了H2O2投加量、催化剂投加量、染料初始浓度和初始pH值等因素对染料废水COD去除率和脱色率的影响。结果表明,当染料废水COD初始浓度为200 mg/L,初始pH值为1.7,投加0.5 g/100 mL催化剂及加入1.0 mL浓度为1.13 mol/L的H2O2溶液时,处理效果最好,此时染料废水的COD去除率和脱色率分别达到63%和99%,并且废水的可生化性得到很大的提高。利用该负载催化剂能够有效地减少活性黄染料废水中Fe3+的残留量。     

负载型纳米CuO/MnO_2催化剂的制备及催化氧化深度处理印染废水

以酸改性凹凸棒土(ATP)为载体,活性炭为添加剂,制备负载铜、锰过渡金属氧化物的凹凸棒土-活性炭催化剂。以印染废水生化处理后出水的COD和色度为处理对象,考察了不同的催化氧化条件,即凹凸棒土与活性炭的比例、pH、H_2O_2和催化剂的投加量对印染废水深度处理效果,并利用SEM、XRD对催化剂进行表征。结果表明:在室温25℃时,催化剂载体中凹凸棒土与活性炭的比例为2∶1,H_2O_2加入量为理论加入量的2倍,即2.4 mL·L~(-1),pH值为4,催化剂的使用量为15 g·L~(-1)时,COD和色度的去除率最佳,分别达到93%和90%。扫描电镜结果表明铜、锰以颗粒的形式负载在催化剂的表面,XRD结果表明在催化剂载体表面,活性组分的存在形式为CuO、MnO_2。     

Fenton-超声联合处理金刚烷胺制药废水

近年来,流感常用药盐酸金刚烷胺的产量不断增大,然而,其生产过程中产生的废水由于得不到有效处理,引起较大污染。以盐酸金刚烷胺生产过程中产生的胺化废水和溴化废水为原水,利用Fenton-超声联合工艺进行处理,主要研究反应时间、初始pH、H2O2投加量和H2O2/Fe2+的投加比和声能密度等操作条件对于金刚烷胺制药废水处理效果的影响。实验结果表明,优化处理条件下,Fenton-超声联合工艺对金刚烷胺制药废水中TOC去除效果最高达到65.6%。超声和Fenton的联合产生了良好的协同效果,Fenton-超声联合工艺对金刚烷胺制药废水的处理效果比单独超声和单独Fenton处理效果之和高18%,大大提高了废水中有机物的去除效果。     

废弃树脂负载铁催化过硫酸盐降解甲基橙

为了降解废水中偶氮染料甲基橙,通过离子交换法在废弃树脂上负载铁制备出一种具有较高催化活性的催化剂,并利用该催化剂催化过硫酸盐降解甲基橙废水,同时考察了不同操作条件对甲基橙降解效果的影响。实验结果表明,甲基橙的脱色率随催化剂和过硫酸盐投加量的升高而升高,但是随着染料初始浓度的升高而降低,随初始pH的升高先升高而后降低。为了考察该催化剂稳定性,经5次连续循环使用后,发现甲基橙脱色率仍然可保持在86%以上,说明该催化剂具有良好的循环使用性能。     

响应面法优化催化臭氧氧化处理邻苯二甲酸二甲酯废水的研究

采用浸渍法制备负载铁锰氧化物的活性炭催化剂,并用其催化臭氧氧化处理邻苯二甲酸二甲酯(DMP)废水。利用响应面法(RSM)对催化臭氧氧化处理的工艺参数进行优化,以DMP废水的COD去除率为响应值,初始pH、催化剂投加量和臭氧通量的水平编码为自变量,建立了COD去除率与3个自变量的二次多项式回归方程。结果表明,二次多项式回归方程的F为15.660,P0.000 1,相关系数R2为0.933 7,说明该模型可以较好地模拟催化臭氧氧化处理DMP废水的效果。优化得到最佳的工艺参数为臭氧通量5.0L/min、催化剂投加量25.0g、初始pH=4.8,在此条件下处理60min后,DMP废水的COD去除率平均值为82.1%,与预测值84.3%接近。     

用于催化降解烷基苯磺酸钠的Cu-C催化剂的制备及性能分析

Cu-C是一种优化制备的负载型催化剂,实验中以其催化湿式氧化处理高浓度LAS废水。本实验用浸渍法和附着沉淀法制备该催化剂,并考察了反应时间、反应温度、溶液浓度、催化剂的投加量以及不同的制备方法等对催化剂性能的影响,以水样COD和LAS的去除率来评价催化剂的活性。实验结果表明,该方法制备的催化剂具有很好的处理高浓度LAS废水的能力;当反应温度为50℃,反应时间为120 min,催化剂的投加量为2 g时,催化剂的催化效果最好,COD去除率为79.76%,LAS去除率为88.28%。并且,当活性炭与催化剂的振荡吸附时间超过20 min时,活性炭的吸附对废水中LAS的去除基本上无影响。     

Factors influencing the preparation of supported iron oxide in fluidized-bed crystallization

Our previous work applied a novel supported iron oxyhydroxide (FeOOH) catalyst to effectively treat benzoic acid by hydrogen peroxide. The FeOOH catalyst was prepared via the oxidation of Fe2+ by H2O2 in the acidic condition using a fluidized-bed crystallization reactor. The major components coated on the surface were identified as amorphous FeOOH and gamma-FeOOH. In terms of the crystallization conditions of FeOOH, some parameters including the operational pH, superficial velocity, specific iron loading, and influent H2O2 concentration were investigated to quantify their effects on the crystallization efficiency. All these parameters were found to significantly influence the crystallization efficiency. Two types of FeOOH catalysts were synthesized: FeOOH I was prepared at pH 3.5, and FeOOH II was formed by aging FeOOH I at pH 13. The percentages of surface amorphous FeOOH reduced from 70% to 30% after aging. The FeOOH II catalyst presented a higher reactivity toward H2O2 but lower stoichiometric efficiency in oxidizing benzoic acid than FeOOH I, similar to the result of the commercial goethite. Therefore, it is concluded that the crystalline property significantly affects the performance of catalytic oxidation.     

沼渣生物炭基Fenton催化剂的制备及其高效降解吡虫啉农药废水的研究

以废弃物沼渣和含铁剩余污泥为原料,采用一步热解法制备沼渣生物炭基Fenton催化剂(以下简称催化剂),构建了非均相Fenton反应体系处理含吡虫啉模拟废水,考察了H2 O2和催化剂用量对吡虫啉去除率的影响.结果表明,非均相Fenton反应体系中,H2 O2最佳投加量为0.50 g/L,催化剂最佳投加量为1.00 g/L...     

超声辐射浸渍法制备Fe-Ni-Mn/Al2O3催化剂及性能研究

以Al2O3为载体,分别采用超声辐射浸渍法和普通浸渍方法制备Fe-Ni-Mn/Al2O3催化剂。采用BET、XRD和SEM对催化剂的理化性质和孔结构进行了分析,以模拟酸性绿B废水为研究对象考察催化剂的催化性能。实验结果表明,浸渍溶液pH值和焙烧温度显著影响催化剂的性能。与普通浸渍法相比,超声浸渍法制备的Fe-Ni-Mn/Al2O3催化剂对酸性绿B脱色反应表现出较高的催化活性。     

超声辐射浸渍法制备Fe-Ni-Mn/Al_2O_3催化剂及性能研究

以Al2O3为载体,分别采用超声辐射浸渍法和普通浸渍方法制备Fe-Ni-Mn/Al2O3催化剂。采用BET、XRD和SEM对催化剂的理化性质和孔结构进行了分析,以模拟酸性绿B废水为研究对象考察催化剂的催化性能。实验结果表明,浸渍溶液pH值和焙烧温度显著影响催化剂的性能。与普通浸渍法相比,超声浸渍法制备的Fe-Ni-Mn/Al2O3催化剂对酸性绿B脱色反应表现出较高的催化活性。     

Catalytic degradation of Orange II by UV-Fenton with hydroxyl-Fe-pillared bentonite in water

Although homogeneous photo-Fenton system is a very efficient method for organic wastewater treatment, it suffers from costly pH adjustment as well as difficult separation of catalysts from aqueous in practical application. Through cation exchange reaction, hydroxyl-Fe-pillared bentonite (H-Fe-P-B) was successfully prepared as a solid catalyst for UV-Fenton to degrade non-biodegradable azo-dye Orange II. Compared with raw bentonite, the content of iron, interlamellar distance and external surface area of H-Fe-P-B increased remarkably. H-Fe-P-B had good photosensitivity and catalyst reactivity. And the catalytic activity of H-Fe-P-B for H(2)O(2) came from hydroxyl-Fe between sheets rather than Fe(3+) or Fe(2+) in tetrahedral or octahedral sheets of bentonite. In UVA-H(2)O(2) system, H(2)O(2) could destroy the azo bond of excited Orange II molecules but could not effectively mineralize it. After 120 min treatment, 83% discoloration was obtained while only 2% of TOC was removed. When H-Fe-P-B was used as catalyst, a significant degradation of Orange II was observed at the same condition as UVA-H(2)O(2) system. Almost 100% discoloration and more than 60% TOC removal of Orange II could be achieved after 120 min treatment. Because of the strong surface acidity and the electronegativity of H-Fe-P-B, the pH range of this catalyst in the Orange II discoloration could be extended up to 9.5. And this catalyst showed good stability during Orange II degradation in water in wide range of pH (3.0-9.5). These results indicated that the H-Fe-P-B was a promising catalyst for UV-Fenton system.     

废水催化湿式氧化稀土金属氧化物催化剂的研制

采用共沉淀法制得锰铈复合氧化物催化剂,催化湿式氧化处理高浓度苯酚废水。通过正交实验筛选催化剂制备条件,单因素实验优化制得催化剂。研究了CWAO处理废水条件下的金属离子溶出和催化剂的表征。结果表明,该催化剂在低温低压条件下具有优良的湿式氧化催化活性,且金属离子溶出量低,是一种CWAO处理高浓度有机废水中极具应用前景的新型高效催化剂。     

钒钛磁铁矿制备絮凝剂用于有机污水处理的研究

以钒钛磁铁矿为原料,利用盐酸浸出工艺制备铁、钛、钒三元絮凝剂,对工艺条件进行优化后用于处理模拟有机污水,并与聚合氯化铁(PFC)的絮凝效果进行对比.结果表明:在浸出时间为4 h、浸出温度为80℃、液固质量比为5、盐酸初始质量分数为20％时,浸出效果最佳,钒、铁、钛的浸出率分别为99.98％、97.77％、10.41％;...     

Treatment of 2,4-D, mecoprop, and dicamba using membrane bioreactor technology

Phenoxyacetic and benzoic acid herbicides are widely used agricultural, commercial, and domestic pesticides. As a result of high water solubility, mobility, and persistence, 2,4-dichlorophenoxyacetic acid (2,4-D), methylchlorophenoxypropionic acid (mecoprop), and 3,6-dichloro-2-methoxybenzoic acid (dicamba) have been detected in surface and waste waters across Canada. As current municipal wastewater treatment plants do not specifically address chronic, trace levels of contaminants like pesticides, an urgent need exists for an efficient, environmentally friendly means of breaking down these toxic herbicides. A commercially available herbicide mix, WeedEx, containing 2,4-D, mecoprop, and dicamba, was subjected to treatment using membrane bioreactor (MBR) technology. The three herbicides, in simulated wastewater with a chemical oxygen demand of 745 mg/L, were introduced to the MBR at concentrations ranging from 300 μg/L to 3.5 mg/L. Herbicides and biodegradation products were extracted from MBR effluent using solid-phase extraction followed by detection using high-performance liquid chromatography coupled with mass spectrometry. 2,4-D was reduced by more than 99.0 % within 12 days. Mecoprop and dicamba were more persistent and reduced by 69.0 and 75.4 %, respectively, after 112 days of treatment. Half-lives of 2,4-D, mecoprop and dicamba during the treatment were determined to be 1.9, 10.5, and 28.3 days, respectively. Important water quality parameters of the effluent such as dissolved oxygen, pH, ammonia, chemical oxygen demand, etc. were measured daily. MBR was demonstrated to be an environmentally friendly, compact, and efficient method for the treatment of toxic phenoxyacetic and benzoic acid herbicides.     

粉煤灰免烧陶粒制备及其重金属废水净化性能

摘要重金属废水对环境的污染已经引起科研人员的广泛关注。以粉煤灰和水泥为原料、添加活性成分FeS，制备一种免烧陶粒用于含重金属Cu2＋、Zn2＋、Pb2＋的废水处理。探讨了物料配比及蒸养时间对陶粒筒压强度及其比表面积的影响；研究了固液比、接触时间、pH、温度及初始溶液浓度等因素对Cu2＋、Zn2＋、Pb2＋离子净化效果的影响规律，并对实验结果进行了等温线拟合。XRD分析显示，免烧陶粒中存在Ca（OH）2、C—D—H、FeS等矿物相，对重金属离子具有非常好的固定化作用。该免烧陶粒对重金属离子具有很好的去除效果，具备较好的应用前景。     

Photocatalytic Treatment of RDX Wastewater with Nano-Sized Titanium Dioxide (5 pp)

Background, Aim and Scope The polynitramines, hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX), octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine (HMX), are important military explosives and regulated toxic hazardous compounds. Production, testing and use of the compounds has resulted in numerous acres of contaminated soils and groundwater near many munitions facilities. Economical and efficient methods for treatment of wastewater and cleanup of soils or groundwater containing RDX and HMX are needed. This study focuses on the photocatalytic treatment of RDX wastewater with nano-sized titanium dioxide (nano-TiO2) under simulated sunlight, whose intensity and wavelength are similar to that of the real sunlight in Xi'an at noon. The objective is to determine the potential for RDX destruction with nano-TiO2 in aqueous solution. Materials and Methods: An activated carbon fiber (ACF) cloth-loaded with nano-TiO2 was put into the RDX containing solution, and the concentration of RDX was measured (by HPLC–UV) at regular time intervals under simulated sunlight. Results: The RDX degradation percentage of the photocatalytic process is higher than that of Fenton oxidation before 80 min, equivalent after 80 min, and it reaches 95% or above after 120 min. The nano-TiO2 catalyst can be used repeatedly. Discussion: The photocatalytic degradation kinetics of RDX under simulated sunlight can be described by a first-order reaction kinetics equation. The possible degradation mechanism of RDX was presented and the degradation performance was compared with that of biological method. Conclusions: It was demonstrated that the degradation of RDX wastewater is very effective with nano-TiO2 as the photocatalytic catalyst under simulated sunlight. The efficiency of the nano-TiO2 catalyst for RDX degradation under simulated sunlight is nearly identical to that of Fenton oxidation. Recommendations and Perspectives: To date, a number of catalysts show poor absorption and utilization of sunlight, and still need ultraviolet light irradiation during wastewater degradation. The nano-TiO2 used in the described experiments features very good degradation of RDX under simulated sunlight, and the manufacturing costs are rather low (around 10 Euro/m2). Moreover, the degradation efficiency is higher compared to that of the biological method. This method exhibits great potential for practical applications owing to its easiness and low cost. If it can be applied extensively, the efficiency of wastewater treatment will be enhanced greatly.