Advanced oxidation processes for the treatment of olive-oil mills wastewater

In this work, the treatment of an actual industrial waste with three advanced oxidation processes (AOP) has been studied: conductive-diamond electrooxidation (CDEO), ozonation and Fenton oxidation. The wastewater comes from olive-oil mills (OMW) and contains a COD of nearly 3000 mg dm(-3). CDEO allowed achieving the complete mineralization of the waste with high current efficiencies. Likewise, both ozonation and Fenton oxidation were able to treat the wastes, but they obtained very different results in terms of efficiency and mineralization. The accumulation of oxidation-refractory compounds as final products excludes the use of ozonation and Fenton oxidation as a sole treatment technology. This confirms that besides the hydroxyl-radical mediated oxidation, CDEO combines other important oxidation processes such as the direct electro-oxidation on the diamond surface and the oxidation mediated by other electrochemically formed compounds generated on this electrode.     

Advanced oxidation processes in azo dye wastewater treatment.

The chemical degradation of synthetic azo dyes color index (C.I.) Acid Orange 7, C.I. Direct Orange 39, and C.I. Mordant Yellow 10 has been studied by the following advanced oxidation processes: Fenton, Fenton-like, ozonation, peroxone without or with addition of solid particles, zeolites HY, and NH4ZSM5. Spectrophotometric (UV/visible light spectrum) and total organic carbon measurements were used for determination of process efficiency and reaction kinetics. The degradation rates are evaluated by determining their rate constants. The different hydroxyl radical generation processes were comparatively studied, and the most efficient experimental conditions for the degradation of organic azo dyes solutions were determined.     

高级氧化技术在含酚废水处理中的应用

合理高效地处理含酚废水是工业废水处理的主要任务之一。重点介绍了高级氧化技术 ,如超声波氧化、超临界水氧化、湿式氧化和光催化氧化等在含酚废水处理中的研究近况和应用前景 ,探讨了各种技术的应用和发展趋势     

Fenton氧化法深度处理甲醛废水

采用Fenton氧化法深度处理经生化降解后的甲醛废水,结果表明,Fenton氧化法深度处理甲醛废水是可行的,在合适的反应条件下,降解初始COD为150 mg/L左右的甲醛废水,COD去除率达30%以上;Fe2+与H2O2的投加比例、投加量及投加方式、反应温度、pH、反应时间对处理效果都有不同程度的影响。     

超临界水氧化处理废水研究进展

超临界水氧化是一种很有前途的废水处理方法。全面综述了超临界水的特性 ,超临界水氧化的基本原理、工艺流程及应用现状。对超临界水氧化现存的问题 ,如反应器的腐蚀和无机盐的沉积进行了描述 ,并就可能的解决方法进行了讨论。对超临界水氧化领域中未来的研究和技术方法提出了建议     

Fenton氧化法深度处理纤维素乙醇废水

采用Fenton氧化法深度处理经生化降解后的纤维素乙醇废水,考察了初始pH值、Fe2+与H2O2的投加比例（物质的量之比）、H2O2投加量与COD的比例（质量之比）以及反应时间对COD和浊度去除的影响,并通过正交实验确定了反应的最佳条件。研究表明：初始pH值、Fe2+/H2O2、H2O2/COD以及反应时间对深度处理效果有不同程度的影响;在初始pH值为3.0、Fe2+/H2O2为2：3、H2O2/COD为2.8、反应时间为3 h的最佳反应条件下,出水COD为45~56 mg·L-1,浊度为2~3 NTU,达到了纤维素乙醇废水的排放标准。     

混凝吸附及化学氧化深度处理焦化废水

以蒙脱石、凹凸棒石、次氯酸钙和PAC、PAM为基本材料,对焦化废水二级生化出水进行深度处理。实验结果表明：蒙脱石与凹凸棒石以4：1的比例配合使用,可明显提高焦化废水中COD和色度去除率;采用次氯酸钙作为氧化剂,可进一步提高焦化废水的脱色率和COD去除率,处理间差异达到极显著和显著水平;去除COD的最优实验条件为：粘土矿物（蒙脱石：和凹凸棒石=4：1）添加量4．0g／L、氧化剂（次氯酸钙）添加量1．0g／L、絮凝剂（聚合氯化铝：聚丙烯酰胺=15／1）添加量0．15g／L,处理后色度去除率达到97．0％,COD去除率达到69．1％;脱色的最优实验条件为：粘土矿物添加量4．0g／L、氧化剂添加量1．0g／L、絮凝剂添加量0．2g／L,处理后色度去除率达到98．5％,COD去除率达到66．4％。     

Advanced oxidation processes in the treatment of trifluraline effluent

The treatment of an effluent from the production of trifluraline was studied using a 1-L, semi-batch, tank-stirred glass reactor for performing three different advanced oxidation processes (photoperoxidation, Fenton, photo-Fenton). A commercial, medium-pressure mercury lamp was used for sample irradiation. The degradation was monitored by measurements of absorptiometric color reduction, UV-visible absorption spectra, and chemical oxygen demand (COD). The obtained results showed that the photo-Fenton process was the most effective treatment for the trifluraline effluent.     

Catalytic oxidation processes for removing dimethylsulfoxide from wastewater

An effective method for removing dimethylsulfoxide (DMSO) from wastewater, based on the mild selective catalytic sulfoxidation with H(2)O(2), is proposed in this study. The catalysts are W-containing layered double hydroxides (LDH), and they were obtained by ionic exchange of the nitrate anions from MAl-LDH precursors (M=Mg(2+) or Zn(2+)) with both WO(4)(2-) and W(7)O(24)(6-) species. Results of X-ray diffraction (XRD), N(2) adsorption, thermal gravimetric analysis (TGA), diffuse reflectance ultraviolet spectroscopy (DRUV) and Raman spectroscopy confirmed the formation of the W-oxospecies inside the interlayer space and the modification of the textural properties upon the exchange process. All catalysts showed very good activity and stability in the DMSO conversion into dimethylsulfone with dilute H(2)O(2) aqueous solution, at low temperatures (20-50 degrees C). The efficiency of the H(2)O(2) was higher than 95% and the behaviour of the water as solvent was very close to that of the organic solvents (ethanol, acetonitrile, 1,4-dioxane).     

Fenton氧化法深度处理抗生素废水二级出水

采用Fenton氧化法对青霉素和土霉素混合废水二级处理出水进行深度处理,通过正交和单因素实验研究了废水初始反应pH值、H2O2投加量、Fe2+/H2O2摩尔比及反应时间等因素对废水处理效果的影响。实验结果表明,Fenton氧化法处理的最佳反应条件为:初始pH值4、H2O2(30%)投加量50 mL/L、Fe2+/H2O2摩尔比1/20和反应时间60 min,处理后出水COD小于120 mg/L,COD去除率在75%以上,急性毒性(HgCl2毒性当量)小于0.07 mg/L,满足《发酵类制药工业水污染物排放标准》(GB21903-2008)表2标准要求。     

微量臭氧催化氧化深度处理煤气化废水

采取固定床连续式水处理方式,实验研究了在固体催化剂作用下微量臭氧催化氧化深度处理地下煤气化废水的效果.结果表明,当处理COD为300 mg,/L左右的该类型废水时,加入微量臭氧,水处理装置COD去除率提高了45％,平均1 mg的臭氧处理了2.4 mg有机物;当废水COD为200 mg/L左右,进水速度为1 L/h时,最佳臭氧投加量为每升废水20 mg左右的臭氧,此时气水比为15:1左右;同时实验发现,不同COD的废水色度均可以被有效去除.通过与其他类似的实验研究比较发现,微量臭氧催化氧化技术具有成本优势.     

BAF-MBR用于污水深度处理与同步化学除磷

以南方城镇生活污水为研究对象,对BAF-MBR组合系统进行研究。BAF-MBR组合系统运行稳定,去污完全,出水COD、NH4+-N、TN、TP的浓度分别达到7.11、0.16、8.85和0.34 mg·L-1,均达到了污水回用的最高要求。在后置MBR池内进行同步化学除磷时,FeSO4·7H2O的投加量为20 mg·L-1时,出水TP达到0.34 mg·L-1,一定程度上加剧了膜污染;Al2（SO4）3·18H2O的投加量为30 mg·L-1,出水TP达到0.33 mg·L-1,能有效减缓膜污染进程。     

Insights into real cotton-textile dyeing wastewater treatment using solar advanced oxidation processes

Different advanced oxidation processes (AOPs) were applied to the treatment of a real cotton-textile dyeing wastewater as a pre-oxidation step to enhance the biodegradability of the recalcitrant compounds, which can be further oxidized using a biological process. Tests were conducted on a lab-scale prototype using artificial solar radiation and at pilot scale with compound parabolic collectors using natural solar radiation. The cotton-textile dyeing wastewater presents a lilac color, with a maximum absorbance peak at 641 nm, alkaline pH (pH?=?8.2), moderate organic content (DOC?=?152 mg C L^?1, COD?=?684 mg O₂ L^?1) and low-moderate biodegradability (40 % after 28 days in Zahn–Wellens test). All the tested processes contributed to an effective decolorization and mineralization, but the most efficient process was the solar-photo-Fenton with an optimum catalyst concentration of 60 mg Fe²⁺ L^?1, leading to 98.5 % decolorization and 85.5 % mineralization after less than 0.1 and 5.8 kJ_UV L^?1, respectively. In order to achieve a final wastewater with a COD below 250 mg O₂ L^?1 (discharge limit into water bodies imposed by the Portuguese Legislation-Portaria no. 423/97 of 25 June 1997), considering the combination of a solar-photo-Fenton reaction with a biological process, the phototreatment energy required is 0.5 kJ_UV L^?1, consuming 7.5 mM hydrogen peroxide, resulting in 58.4 % of mineralization $ \left({t}_{30\mathrm{W}}=3.2\ \min; \overline{T}=30.7\ {}^{\circ}\mathrm{C};\overline{\mathrm{pH}}=2.80;{\overline{\mathrm{UV}}}_{G,n}={13\ \mathrm{W}\ \mathrm{m}}^{-2}\right). $      

超临界水氧化处理煤气化废水的响应面优化

采用响应面法对超临界水氧化处理煤气化废水的工艺参数进行了优化.运用中心复合设计,建立了COD、NH3-N去除率与温度、压强、氧化系数、反应时间4因素的二次回归模型,分析了各因素的显著性及交互作用.结果表明,各因素对COD、NH3-N去除率影响大小为:温度＞氧化系数＞反应时间＞压强.温度和氧化系数对COD去除率交互影响显著;温度和氧化系数、温度和反应时间、氧化系数和反应时间对NH3-N去除率交互影响显著.以COD、NH3-N去除率最大化,温度最低为目标条件,获得试验范围内最佳工艺条件:温度520℃,压强27.00 MPa,氧化系数3.0,反应时间10 min.该条件下3次验证试验的COD、NH3-N平均去除率分别为99.92％、99.54％,与预测值99.89％、99.51％无显著差异,表明所建模型切实可行.     

超声波、Fenton试剂与絮凝联用进一步处理焦化废水的实验研究

焦化废水是一种较难处理的工业废水,目前采用的生化方法很难使COD达到国家规定的排放标准.对超声、Fenton与絮凝联合应用处理生化后的焦化废水进行了实验研究,并探讨了三者联合应用的最佳组合反应条件及单因素对COD的影响趋势.结果表明,三者联合应用处理焦化废水COD的最佳反应条件为:Fe2 40 mg/L,H2O2 55 mg/L,FeCl3 5.4 mg/L,PAM 1.2mg/L,超声波频率为34.19 kHz.在此反应条件下,COD去除率达到77.7%;各单因素对COD去除率的影响顺序为Fe2 ＞H2O2＞PAM＞超声波频率＞FeCl3.     

黄磷废水处理工艺比较

针对黄磷废水的两种处理工艺做了详细的分析和比较 ,结果表明 ,对不同规模的黄磷生产厂 ,可采用不同的处理工艺 ,但最好是采用主动式黄磷废水处理工艺。主动式黄磷废水处理工艺能使黄磷废水经处理后达到GB8978 1996规定的国家一级排放标准。     

Electrochemical advanced oxidation and biological processes for wastewater treatment: a review of the combined approaches

As pollution becomes one of the biggest environmental challenges of the twenty-first century, pollution of water threatens the very existence of humanity, making immediate action a priority. The most persistent and hazardous pollutants come from industrial and agricultural activities; therefore, effective treatment of this wastewater prior to discharge into the natural environment is the solution. Advanced oxidation processes (AOPs) have caused increased interest due to their ability to degrade hazardous substances in contrast to other methods, which mainly only transfer pollution from wastewater to sludge, a membrane filter, or an adsorbent. Among a great variety of different AOPs, a group of electrochemical advanced oxidation processes (EAOPs), including electro-Fenton, is emerging as an environmental-friendly and effective treatment process for the destruction of persistent hazardous contaminants. The only concern that slows down a large-scale implementation is energy consumption and related investment and operational costs. A combination of EAOPs with biological treatment is an interesting solution. In such a synergetic way, removal efficiency is maximized, while minimizing operational costs. The goal of this review is to present cutting-edge research for treatment of three common and problematic pollutants and effluents: dyes and textile wastewater, olive processing wastewater, and pharmaceuticals and hospital wastewater. Each of these types is regarded in terms of recent scientific research on individual electrochemical, individual biological and a combined synergetic treatment.     

超临界水氧化有机废水动力学分析

根据推流式超临界水氧化 (SCWO)反应器处理有机废水的动力学方程式 ,结合近年来超临界水氧化降解各种有机废水的实验研究情况 ,对超临界水氧化有机废水的反应动力学影响因素进行了综合分析 ,同时指出了该技术在有机废水处理中的应用优势和存在问题。