电镀重金属废水近零排放治理方案优化探讨

文章介绍了电镀工业发展及电镀重金属废水近零排放治理方案情况,通过文查阅文献、实地调研综合分析,对电镀重金属废水近零排放治理方案优化提出了相关建议。     

电镀企业竣工环保验收监测及后续监管中存在问题探讨

结合电镀企业竣工环保验收监测工作实践,对单位产品基准排水量和排气量的计算和评价,电镀标准中对污染物处理设施排气量的规定,第一类污染物在不同采样点评价标准的选择,重金属排放总量计算以及后续电镀企业废水、废气、污泥监管中存在的问题进行了探讨,并提出了相应的建议。     

天然材料处理电镀废水的研究进展

"以废治废"是一种经济效益好、资源消耗低、环境污染少的环境保护新思路,被广泛应用于各类环境污染治理技术上。电镀废水是一种典型的重金属污染废水,同时具有较高的循环利用价值。在介绍电镀废水的特点、常见治理方法的基础上,综述了天然材料在处理电镀废水技术的应用情况和发展前景,分析了天然材料在处理电镀废水的优点,指出天然材料在处理电镀废水的发展趋势。     

废酸的综合治理与资源化研究进展

通过对废酸处置行业的现状调查研究,探讨了双极膜法、结晶法、中和法、喷雾焙烧法、离子交换法、化学转化法等典型废酸处置工艺的特点及存在的问题。以提高环境和经济效益为前提,针对废酸处置行业普遍存在的重金属处理问题,提出将电解法、双极膜法和离子交换法等关键技术集成和改性,形成具有耐酸和重金属高效去除等能力的针对废酸特点的新工艺等建议。     

上海松江区重金属在线监测监控现状与改进措施研究

废水污染源中的重金属监管工作既是水环境管理工作的重点也是难点。近年来,水中重金属污染事故时有发生,国家与地方出台了诸多关于加强重金属水污染防治工作的政策法规。文章分析了松江区内重点污染源废水企业重金属在线监测的现状,剖析了重金属在线监控中取得的经验和存在的问题,并针对重金属废水污染源的环境监管要点做一些探讨。     

电镀污泥标准浸出方法的比对

采用3种固体废物浸出毒性标准浸出方法处理电镀污泥,考察浸提剂、样品粒径、液固比、振荡时间、振荡方式等因素对电镀污泥中重金属浸出效果的影响,用电感耦合等离子体原子发射光谱法同时测定浸出液中铜、锌、镍、铬、铅、镉、钡等元素。试验表明:醋酸缓冲溶液体系浸出液中重金属浓度最高;样品粒径越小,浸出毒性越大;翻转振荡比水平振荡更有利于重金属浸出;液固比增大,重金属浸出量增加;虽然液固比和振荡时间对重金属浸出效果均有影响,但很难确定最佳值。     

多元线性回归-分光光度法测定电镀排放废水中重金属

采用多元线性回归-分光光度法进行电镀排放废水中Cr³⁺、Ni²⁺、Zn²⁺的同时测定研究。以4-(2-吡啶偶氮)间苯二酚(PAR)为显色剂,探索了同时测定模拟电镀废水中Cr³⁺、Ni²⁺、Zn²⁺的实验方法,建立多元线性回归模型。根据实际电镀排放废水中Cr³⁺、Ni²⁺、Zn²⁺的质量浓度分布调查结果,设计了测定较低和较高浓度范围2种模型,分别对应不同水质波动程度的电镀企业废水,前者浓度范围设置基本覆盖大多数实际电镀排放废水中Cr³⁺、Ni²⁺、Zn²⁺的浓度,且具有较高精度。测定浓度范围较小模型对应水质波动较小的电镀排放废水,模型中Cr³⁺、Ni²⁺、Zn²⁺的质量浓度分别为0.32～0.44、0.32～0.50、0.72～0.84 mg/L,平均相对误差MR...     

青岛市开展重金属废水自动监测工作探索

简述了青岛市开展重金属自动监测的要求与现状,分析了开展重金属自动监测的优势与存在问题,在介绍青岛市相关工作对策和措施的同时,对重金属废水自动监测系统建设、设备选型、监控平台建设、运行维护管理等提出建议。     

电石法生产聚氯乙烯行业危险废物判定要点分析

聚氯乙烯树脂是用途极广的热塑性高分子材料,然而,电石法生产聚氯乙烯树脂(PVC)的过程中会产生大量的危险废物,如处置不当会对环境造成严重污染。本文对电石法生产聚氯乙烯树脂(PVC)过程中产生危险废物的类型、环节和产生特性进行了分析,以供环保部门和相关企业作为针对危险废物环境管理的判定依据。     

用毒性鉴别评价技术研究电镀废水毒性原因

采用毒性鉴别评价（ＴＩＥ）国外新技术对导致组分较为简单的电镀废水毒性的原因作了鉴别评价研究，旨在为今后开展组分较为复杂的废水的毒性原因的鉴别评价研究提供经验。结果表明，导致电镀废水毒性的毒物是六价铬。     

ICP－AES光谱法同时测定团体废物浸出液中的多种金属元素

采用翻转振荡方式以水为浸提剂浸提钢渣、尾矿渣、铬渣、铅渣、粉煤灰和电镀污泥试样，过滤后的浸提液经ＤＤＴＣ／ＣＣｌ４体系萃取富集后，用ＩＣＰ－ＡＥＳ法同时测定了Ｃｕ、Ｐｂ、Ｚｎ、Ｃｄ、Ｎｉ、Ｆｅ、Ｍｎ、Ｃｏ和Ｖ等多种金属元素．方法具有较好的精密度和准确度，宜于推广应用。     

Heavy metal pollution in surface soils of Pearl River Delta,China

Heavy metal pollution is an increasing environmental problem in Chinese regions undergoing rapid economic and industrial development, such as the Pearl River Delta (PRD), southern China. We determined heavy metal concentrations in surface soils from the PRD. The soils were polluted with heavy metals, as defined by the Chinese soil quality standard grade II criteria. The degree of pollution decreased in the order Cd?>?Cu?>?Ni?>?Zn?>?As?>?Cr?>?Hg?>?Pb. The degree of heavy metal pollution by land use decreased in the order waste treatment plants (WP)?>?urban land (UL)?>?manufacturing industries (MI)?>?agricultural land (AL)?>?woodland (WL)?>?water sources (WS). Pollution with some of the metals, including Cd, Cu, Ni, and Zn, was attributed to the recent rapid development of the electronics and electroplating industries. Cd, Hg, and Pb (especially Cd) pose high potential ecological risks in all of the zones studied. The soils posing significantly high and high potential ecological risks from Cd covered 73.3 % of UL, 50 % of MI and WP land, and 48.5 % of AL. The potential ecological risks from heavy metals by land use decreased in the order UL?>?MI?>?AL?>?WP?>?WL?>?WS. The control of Cd, Hg, and Pb should be prioritized in the PRD, and emissions in wastewater, residue, and gas discharges from the electronics and electroplating industry should be decreased urgently. The use of chemical fertilizers and pesticides should also be decreased.     

Use of solvent extraction for the removal of heavy metals from liquid wastes

Solvent extraction is recommended as a suitable method for the removal of heavy metals from the waste waters of the chemical and electronic industries. Common extractants are organic compounds with molecular mass 200–450, almost insoluble in water (5–50 ppm), that selectively extract metals from aqueous solutions. On the basis of data from the literature, the extraction conditions are reviewed for the metals that cause problems in waste waters. The extraction conditions are understood to mean the type of extractant, anion present in the aqueous phase, and pH. As far as the data permit, the metals are ordered according to their extractability by given extractants. Special attention is paid to the main source of contamination of waste waters by heavy metals, namely electroplating plants. Two examples of the design of mixer-settler batteries are presented, which demonstrate continuous removal of heavy metals from the waste waters of electroplating plants to levels below the permissible limits. The first example illustrates removal of cadmium using triisooctylamine in a mixer-settler battery with the pertraction flow-arrangement; the second, removal of zinc and lead from rinse waters using the organophosphoric acid DEHPA (bis (2-ethylhexyl) phosphoric acid) in a battery with counter-current flow and reflux. The extraction equilibrium data were obtained in laboratory experiments using chloride solutions in concentrations close to those in the rinse waters of electroplating plants (erná and Volaufová, 1991).     

Heavy Metal Load Of Soil, Water And Vegetables In Peri-Urban Delhi

Peri-urban lands are often used for production of vegetables for better market accessibility and higher prices. But most of these lands are contaminated with heavy metals through industrial effluents, sewage and sludge, and vehicular emission. Vegetables grown in such lands, therefore, are likely to be contaminated with heavy metals and unsafe for consumption. Samples of vegetables i.e., spinach (Spinacia oleracea L.) and okra (Abelmoschus esculentus L.); soil and irrigation water were collected from 5 peri-urban sites of New Delhi to monitor their heavy metal loads. While heavy metal load of the soils were below the maximum allowable limit prescribed by the World Health Organization (WHO), it was higher in irrigation water and vegetable samples. The spinach and okra samples showed Zn, Pb and Cd levels higher than the WHO limits. The levels of Cu, however, were at their safe limits. Metal contamination was higher in spinach than in okra. Spatial variability of metal contamination was also observed in the study. Bio-availability of metals present in soil showed a positive relationship with their total content and organic matter content of soil but no relationship was observed with soil pH. Washing of vegetables with clean water was a very effective and easy way of decontaminating the metal pollution as it reduced the contamination by 75 to 100%.     

Monitoring of toxic elements present in sludge of industrial waste using CF-LIBS

Industrial waste is one of the main causes of environmental pollution. Laser-induced breakdown spectroscopy (LIBS) was applied to detect the toxic metals in the sludge of industrial waste water. Sludge on filter paper was obtained after filtering the collected waste water samples from different sections of a water treatment plant situated in an industrial area of Kanpur City. The LIBS spectra of the sludge samples were recorded in the spectral range of 200 to 500 nm by focusing the laser light on sludge. Calibration-free laser-induced breakdown spectroscopy (CF-LIBS) technique was used for the quantitative measurement of toxic elements such as Cr and Pb present in the sample. We also used the traditional calibration curve approach to quantify these elements. The results obtained from CF-LIBS are in good agreement with the results from the calibration curve approach. Thus, our results demonstrate that CF-LIBS is an appropriate technique for quantitative analysis where reference/standard samples are not available to make the calibration curve. The results of the present experiment are alarming to the people living nearby areas of industrial activities, as the concentrations of toxic elements are quite high compared to the admissible limits of these substances.     

Environmentally safe sewage sludge disposal: the impact of liming on the behaviour of Cd, Cr, Cu, Fe, Mn, Ni, Pb, and Zn

Dewatered sewage sludge containing relatively high total concentrations of Cr (945 micrograms ml-1), Cu (523 micrograms ml-1), Ni (1186 micrograms ml-1) and Zn (2950 micrograms ml-1) was treated with quicklime and sawdust for sludge disinfection and post-stabilisation. The mobility of the heavy metals in the sludge samples was assessed by applying a modified five-step Tessier sequential extraction procedure. Water was added as a first step for estimation of the proportion of the easily soluble metal fractions. To check the precision of the analytical work the concentrations of heavy metals in steps 1-6 of the extraction procedure were summed and compared to the total metal concentrations. The mass balance agreed within +/- 3% for Cd, Cu, Cr, and Zn and within +/- 5% for Ni, Pb, Fe and Mn. Data from the partitioning study indicate that in the lime-treated sludge at a pH of 12 the mobility of Cu and Ni notably increased with the solubilisation of these metals from their organic and/or carbonate and Fe and Mn oxide and hydroxide fractions, respectively. Liming slightly decreased the proportion of other heavy metals in the easily soluble fractions while its impact on the partitioning between other sludge phases was almost insignificant. Due to the increased solubility of Ni and Cu as well as potential Cr oxidation at high pH, liming cannot be recommended for sludge disinfection. Addition of sawdust did not change the heavy metal partitioning.     

Heavy metal speciation in the composting process

Composting is one of the more efficient and environment friendly methods of solid waste disposal and has many advantages when compared with landfill disposal on which the UK and Ireland are currently heavily dependent. Composting is a very complicated process involving intensive microbial activity and the detailed mechanisms of the process have yet to be fully understood. Metal speciation information can provide an insight into the metal-microbial interaction and would help in the evaluation of the quality of compost. This would facilitate the exploitation of composts in remediation of heavy metal contaminated land. In this work a systematic approach to metal speciation in compost has been taken by applying the three-step method for operationally defined metal speciation of soils and sediments, developed by the European Commission's Standards, Measurement and Testing Programme to monitor the change in metal speciation with time (up to 106 days) for four different waste composting processes. The results have shown that in general metals become less available for the first extraction step as the composting process proceeds. This implies that composting tends to redistribute the metals from more labile forms to more fixed forms which may explain why the application of composts could be useful for with heavy metal contaminated land. There are exceptions to this trend and in some cases, certain metals appear to behave differently depending on the source of the compost.     

农产品产地土壤重金属外源污染来源解析及防控策略研究

分析了工业生产排放、污水灌溉、矿产资源开发、农业投入品施用、大气颗粒物降尘及固体废弃物堆放等农产品产地土壤重金属主要外源污染来源,在此基础上构建了包括工业过程源、固定燃烧源、灌溉水源、废弃物堆放源、流动源和农业投入品源的来源清单,并从建立健全源头预防和强化过程控制2个方面,提出了加强农产品产地土壤重金属污染监管的相关建议。