光催化氧化法处理难降解废水的研究进展

综述了光催化氧化处理难降解废水的研究现状及发展趋势。介绍了影响光催化氧化反应速率的因素及光催化氧化法在处理难降解废水中的应用。     

金矿含氰废水中氰化物的降解方法

含氰废水的排放造成严重的环境污染,处理废水中的氰化物具有重要的实际意义,特别是对采用氰化法提金的黄金矿山尤为重要。本文系统介绍了国内外处理含氰废水中氰化物的几种应用效果较好的方法,阐述其原理、工艺流程等,并对其处理效果作了具体比较。     

含苯并三唑废水处理方法探讨

含苯并三唑废水是一类常规方法不能处理的化工废水,需要探讨有效的处理方法。在纳米科技理论指导下,以纳米微粒的吸附特性为切入点,确立了纳米微粒与无机高分子混凝剂最佳混凝形态之间联系的纽带。围绕混凝作用进行了纳米粉体材料混凝试验、无机高分子混凝剂混凝试验和电凝聚试验。结果发现,应用电凝聚法能有效去除废水中由苯并三唑产生的COD,从而成功地探索出有效处理含苯并三唑废水的方法。     

脉冲电解处理石油废水的实验研究

石油废水中含有多种有机物,成分复杂,其治理是当今急需解决的问题.用自制的反应器以石墨为电极材料,应用脉冲电解方法,进行处理石油废水的实验.实验结果表明:在电解时间 30 min,电解电压 10 V,脉冲电源频率 3 750 Hz,占空比 50 %,pH＝9,电极间距 2.5 cm,电极直径 1.0 cm,电解质浓度 0.2 % 的条件下进行电解,废水的处理效果可达到 89 % 以上.处理后的废水低于国家第二类污染物最高允许排放浓度的二级排放标准.脉冲电解法不但处理含油废水效果显著,而且设备简单,易于操作,为处理石油废水提供了一项新技术.     

壳聚糖和PDMDAAC改性膨润土用于处理含油废水的研究

含油废水污染范围广,对人类和生态环境危害大。采用常规方法(如浮选法、絮凝法、电化学法、膜分离法和生物法)处理的除油率不高于91%,成本较高,因此急需开发一种高效低廉的吸附剂。膨润土是一种优良的吸附剂,但用其直接处理含油废水的效果较低。本文选用壳聚糖和PDMDAAC两种有机物作为改性剂,对钠基膨润土改性,使膨润土能有效地处理含油废水。通过实验比较了两种有机改性膨润土处理含油废水的最佳去除条件,探讨了表征对其吸附性能的影响。去油效果结果表明:壳聚糖改性膨润土的除油率可达87.8%,PDMDAAC改性膨润土的除油率可达89.3%,处理所需时间少于15 min;除油效率和处理时间都优于常规方法。吸附性能表征结果显示,两种改性剂均以负载的方式和钠基膨润土颗粒结合,吸附性能良好;相比而言,PDMDAAC改性膨润土的处理效果比壳聚糖改性膨润土更好。PDMDAAC应用于含油废水的处理,具有成本低、效率高、操作简单的特点,在含油废水处理领域具有较好的应用前景。     

印染废水特点及其处理技术

随着国民经济的快速发展,我国的印染业尤其是民营印染企业发展十分迅速,在纺织废水的排放过程中,印染废水的排放尤为突出.本文在分析印染废水的来源、特性及处理存在问题基础之上,总结了印染废水的处理技术,主要有物理法、化学法及生物处理.     

天然铁的硫化物处理含Hg（Ⅱ）废水的实验研究

本文利用沉淀转化的原理研究了天然铁的硫化物在处理含汞废水中的应用。重点探讨了介质ｐＨ值,试样用量、试样粒径对Ｈｇ（Ⅱ）去除效果的影响,以及试样用量与废水浓度和废水体积的。还研究了试样的重复使用性能,提出了通过调节处理过程中的ＰＨ值来提高反应速度的新方法。     

改性膨润土在环保中的应用

综述了改性膨润土在环境保护中的应用：去除废水中的重金属(Pb、Cr、Hg、Ni)离子；催化水中苯胺的光化学降解；处理J酸废液；去除水中硝基苯和苯酚；对乳油废水破乳除油等。并探讨了形成的机理。     

闽东南麦饭石特征及其净化水环境应用探讨

研究了闽东南麦饭石特征及功能特性,探讨了闽东南麦饭石在味精废水,养鳗池水水质净化处理方面的应用前景。     

混凝沉淀-改性沸石方法联合处理锡铅锌多金属矿选矿废水初步研究

锡铅锌金属选矿过程中,重金属离子的溶出,使得选矿废水中重金属含量较高,需要处理才能达标排放。取原水pH值为8,Zn~(2+)为13.8mg/L,Cd~(2+)为0.07mg/L,采用混凝沉淀-改性沸石处理工艺流程处理,可使废水达到铅锌行业排放标准。在工程应用中,可使选矿废水达标排放,效果稳定,但沸石产泥量较大。     

Nanofiltration process on dye removal from simulated textile wastewater

Dyestuffs removal from industrial wastewater requires special advanced technologies, since dyes are usually difficult to remove by biological methods. In this study nanofiltration process was used for removal of different dyestuffs from solutions. The rate of dye removal by spiral wound nanofiltration membrane in film thin composite MWCO=90 Dalton, was evaluated for four classes of dyes acidic, disperse, reactive and direct in red and blue dyes medium. Dye absorbance was measured by spectrophotometric method (2120 Standard Method 1998). Effects of feed concentration, pressure and total dissolved solids concentration were also studied. Results showed that increasing dye concentration lead to higher color removal up to 98 % and at different pressures for acidic and reactive blue were up to 99.7 %. Different types of dyes had no effect on dye removal and permeate flux. During 2 h. of the operation time, permeate flux decline was increased. Permeate fluxes for different types of red dyes were from 16.6 to 12.6 (L/m²/h.) and for blue dyes were from 16.6 to 10.45 (L/m²/h.). Presence of sodium chloride in dye solutions increased dye rejections nearby 100 %. Chemical oxygen demand removal efficiencies for reactive blue, disperse blue, direct and disperse red dyes were also approximately 100 %.     

上海市废水排放与处理的现状及对策研究

本文根据上海市1991年到2007年废水排放的统计资料,对比分析了近年来上海市工业和生活及其他领域废水的排放情况。分析结果显示,工业废水的排放量正在逐渐减少,相反生活废水的排放量与日俱增,到20世纪九十年代中期,生活及其他领域的废水年排放量超过工业废水的年排放量,成为上海市废水的主要来源。文章结合同期上海市工业总产值、户籍人口以及人民生活水平等变化情况,探讨了工业废水排放减少、生活废水排放增加的主要影响因素,并以此为依据探寻未来上海市进一步减少城市废水排放的对策。     

Removal of bisphenol A (BPA) from biologically treated wastewater by microfiltration and nanofiltration

Bisphenol A (BPA) is an endocrine disruptor that is difficult to completely remove from wastewater by conventional biological methods. Increased post-treatment BPA removal with ceramic membranes is worth investigating because of these membranes’ mechanical and chemical stability and lifespan. To determine the effectiveness of ceramic membranes for post-treatment of biologically treated BPA-contaminated wastewater, microfiltration (MF) and nanofiltration (NF) were conducted. Both processes removed BPA completely at an initial BPA concentration of 0.3 ± 0.14 mg/L. Increased concentration of 0.7 ± 0.29 mg/L decreased BPA removal. MF removed at least 24 % of BPA, presumably because BPA was adsorbed on particulate matter, which was retained by the membrane, or adsorbed on its surface. NF removed up to thrice more BPA. MF and NF completely removed suspended solids and 40–60 % COD. Filtration capacity decreased with time due to fouling but did not depend on initial BPA concentration. BPA concentrations in municipal wastewater are typically lower than the lowest concentration tested, where MF completely removed BPA. Hence, MF ceramic membranes appear a promising solution for post-treatment of BPA-containing wastewater. MF can be used at a much lower transmembrane pressure than NF, requiring less energy to pump wastewater through the membrane, thus reducing costs.     

城市开发区工业与生活混合污水处理设计——以四川省成都市某工业开发区为例

城市工业开发区建设时推荐我国工业规模化和产业结构升级的重要措施和手段.但随着而来的是各种各样的工业废水、生活污水汇聚,为城市污水处理厂设计和工艺选择提出了新的要求.文章以四川省成都市为例,生化处理部分采用改良A2/O工艺.结果表明,该工艺具有较好的除氮去磷效果,出水可稳定达到国家<城镇污水处理厂污染物排放标准>(GB1...     

Conceptual hydrosalinity model for prediction of salt load from wastewater flows into soil and ground water

Dynamic hydrosalinity models are available, but are not used extensively on a large scale soil which receives wastewater from industrial areas, partly because adequate database are expensive to be obtained. Thus, for this reason, there is an urgent need to assess the salt and other pollutant loads collected in wastewater flows into the soil and/ or ground water systems. A conceptual hydrosalinity model was used on two major underlying principals of mass balance and steady state. This model was initially tested on the 4,117 km² plains west of the Yazd-Ardakan district in the central part of Iran. This model was used at a time when the soil and ground water salinity problem was serious due to the high shortage of water. It was possible to calibrate the model with ± 2 % of the flow volume and total dissolved solids of the industrial wastewater discharge from over 2,000 factories. The verification results were 98 % of the measured values. Moreover, this model was tested for the verification of the model data from the analysis of 36 wells’ water in the area where industrial wastewater discharge was used. The results showed that most of the indices of total dissolved solids, total suspended solids, biological oxygen demand and chemical oxygen demand are above standard levels. The results of the model can be used for the management practice of the reduction of salt pollutant load in the area to achieve sustainable development for location of industries in the study area.     

一种重金属废水处理剂处理工业含铅废水的研究

用滚动成型的方法将改性天然磷灰石粉末制备成颗粒状水处理剂,并对工业含铅废水进行了静态和动态处理研究.静态实验中该水处理剂去除铅离子的能力可达到661.10 mg/g;动态实验结果表明该水处理剂每1 kg可以处理Pb2 浓度为58.3 mg/L的废水3 m3,出水达到排放标准.对使用过的水处理剂进行高温固化或者添加到粘土中制砖,可避免二次污染.经济分析显示该水处理剂具有很好的应用潜力和开发价值.     

Treatment options for wastewater effluents from pharmaceutical companies

In recent years, concerns about the occurrence and fate of active pharmaceutical ingredients, solvents, intermediates and raw materials that could be present in water and wastewater including pharmaceutical industry wastewater has gained increasing attention. Traditional wastewater treatment methods, such as activated sludge, are not sufficient for the complete removal of active pharmaceutical ingredients and other wastewater constituents from these waters. As a result, complementary treatment methods such as membrane filtration, reverse osmosis and activated carbon are often used in conjunction with the traditional methods for treatment of industrial wastewater. Most of the literature published to date has been on the treatment of municipal wastewater. However, there is a growing body of research that looks at the presence of active pharmaceutical ingredients in industrial wastewater, the treatment of these wastewaters and the removal rates. This article, reviews these treatment methods and includes both traditional methods and advanced oxidation processes. The paper concludes by showing that the problem of pharmaceuticals in wastewaters cannot be solved merely by adopting end of pipe measures. At source measures, such as replacement of critical chemicals, reduction in raw material consumption should continue to be pursued as the top priority.     

Effect of irrigation water qualities on Leucaena leucocephala germination and early growth stage

The evaluation of nonconventional water resources on seed germination and seedling growth performance at early growth stages is still in progress, especially on multipurpose forest trees. This study was designed to test the effect of four water qualities [treated wastewater, industrial, gray and distilled water (control)] on germination and early seedling vigor of Leucaena leucocephala. The results showed that germination was not significantly affected by different water qualities. Seed germination reached a maximum after 17, 14, 14 and 21?days under gray, industrial, treated wastewater and control irrigation, respectively. The highest mean of shoot length was scored under gray water irrigation. Likewise, the highest mean of root length was scored under control, which was not significant from gray water. The means of shoot fresh and dry weight were the highest under treated wastewater. The means of root fresh weight and root dry weight were not significantly different under water treatments. The shoot/root ratios under all water qualities treatments were significantly higher than the control. Growth performance was in progress with no mortality during 21?days of growth. The best nonconventional water quality alternatives based on cleanness, nutrients and toxicity are the gray, treated wastewater and industrial water, respectively.     

Efficiency of compost in the removal of heavy metals from the industrial wastewater

Authorities have been applying very strict regulations for the treatment of industrial wastewater recently because of the threatening level of the environmental pollution faced. Industrial wastewater containing heavy metals is a threat to the public health because of the accumulation of the heavy metals in the aquatic life which is transferred to human bodies through the food chain. Therefore, recently, researchers have been oriented toward the practical use of adsorbents for the treatment of wastewater polluted by heavy metals. The aim of this research was to determine the retention capacity of compost for copper, zinc, nickel and chromium. For this purpose, experiments in batch-mixing reactors with initial metal concentrations ranging from 100 to 1,000 mg/l were carried. It was also observed that compost could repeatedly be used in metal sorption processes. The experiments conducted indicated that compost has high retention capacities for copper, zinc and nickel, but not for chromium. Thus, compost has been approved as a potential sorbent for copper, zinc and nickel and may find place in industrial applications. Thus, solid waste which is another source of significant environmental pollution will be reduced by being converted into a beneficial product compost.     

Study of the physical and chemical qualities of surface water and groundwater in the upper valley of wadi Rhumel (Eastern Algeria)

Our study region is characterized by a varied age detritus Mio-Plio-Quaternary formations. Some training can be an important groundwater sources (alluvial sand, shell, limestone, gravel). Agriculture in the study area is the first socio-economic activity and the largest consumer of water resources. It is therefore necessary to take into account for effective water management. This may causes a risk of pollution of various kinds: agricultural, industrial, and domestic water overlooked the lack of wastewater treatment plants in the region and that all discharges of sewage are dumped into the river are the Rhumel no prior treatment. Wadi Rhumel water pollution factors are multiple and related primarily to the agricultural vocation of the area, the nature of different domestic and industrial discharges. We note that the discharge of wastewater from the town of Tadjenanet and Chelghoum Laid is at wadi Rhumel, the latter during low water turns into open sewer. In times of water shortage, intensive pumping on the outskirts of the wadi locally generates an immigration of a possible pollution load to groundwater. Two major cities in our study area are located along of wadi Rhumel with an estimated population over 100,000 inhabitants. Both towns have uncontrolled landfills where one is located at the upstream of wadi Rhumel. Faced with this alarming environmental situation and the lack of treatment plants, we contribute to the study of the impact of wastewater on the quality of surface and groundwater through a physicochemical analysis interpretation.