广州生活垃圾处理的思路与对策

简述了广州生活垃圾生成与处理的现状。指出了广州生活垃圾处理存在的主要问题,对广州市未来10 a—15 a生活垃圾产生量进行了预测。在对生活垃圾填埋和焚烧处理成本进行比较的基础上,提出了广州生活垃圾处理的行动内容。     

非甲烷总烃样品保存时限探讨

非甲烷总烃在监测过程中,废气样品保存容器的选择和保存时间的长短对分析结果有重要影响。研究结果表明:使用玻璃注射器保存样品,应在8 h内完成分析;使用泰德拉惰性气袋保存样品,保存时间可延长至48 h,如废气中主要组分为沸点高于150℃的高沸点化合物,则应在8 h内完成非甲烷总烃的测定。     

生活垃圾焚烧烟气中重金属排放水平及影响因素分析

通过对浙江省生活垃圾焚烧炉排放烟气中重金属的监测,分析生活垃圾焚烧烟气中重金属排放水平。结果表明,汞及其化合物的检出率最高,为95.7%,其次为铬和锰,检出率均为60%,且在不同的焚烧炉中重金属排放浓度差异较大,检出率最低的为铊和镉,且排放浓度均较低;焚烧炉排放烟气中汞及其化合物、镉+铊及其化合物、锑+砷+铅+铬+钴+铜+锰+镍及其化合物排放浓度均低于国标排放限值,最大占标率分别为76%、4%、21.9%。焚烧烟气中的重金属含量与焚烧垃圾中的重金属含量有关,烟气通过废气处理设施,可有效地减少重金属等污染物的排放。     

离子色谱法测定废气中的丙烯酸

采用离子色谱法测定废气中的丙烯酸,几种常见的无机阴离子对分析无干扰。方法在0．100mg／L～10．0mg／L范围内线性良好,对有组织废气和无组织废气的检出限分别为0．04mg／m3和0．003mg／m3,废气平行样品测定值的相对偏差为3．4％～10．5％,加标样品的回收率为91％～102％。     

Speciative determination of Cr (III) and Cr (VI) in dyeing waste water of Dil Creek discharge to Izmit Gulf (Izmit-Kocaeli, Turkey) by ICP-AES

Wastewater pollution in industrial areas is one of the most important environmental problems. Heavy metal pollution, especially chromium pollution in wastewater sources from dyeing and tannery has affected the life on earth. This pollution can affect all ecosystems and human health directly or by food chain. Therefore, the determination of chromium in this study is of great importance. Dil Creek is located in the eastern Marmara region and discharges into the Izmit Gulf. This water source is used for irrigation in agriculture and as drinking water for animals. In this study, a rapid, sensitive and selective method for the speciative direct determination of Cr (III) and Cr (VI) in dyeing waste water samples collected from the nearest station to Izmit Gulf of Dil Creek in May 2006 by inductively coupled plasma-atomic emission spectrometry (ICP-AES) has been developed. An analysis of a given sample is completed in about 15 min for ICP-AES the method. As the result of the chromium analysis, the limit of quantification (LOQ) for the Cr (III), Cr (VI) and total Cr were founded as 0.0111 ± 0.0002 mg/l (RSD, 1.80%), 0.0592 ± 0.0010 mg/l (RSD, 1.70%) and 0.0703 ± 0.0020 mg/l (RSD, 2.84%) respectively. In addition, the general mathematical formula has been developed to calculate the concentration of Cr(III), which can be applied to any other metal species. The result of Cr (VI) analysis indicated that water quality of Creek was IV. class quality according to the inland water classification. In order to validate the applied method, recovery studies were performed.     

工业酸洗含铁废盐酸的资源化处理工艺

工业上广泛使用盐酸作为钢材酸洗介质,会产生相当多的含铁废盐酸,废液如果直接排放会严重污染环境,而且造成资源浪费。本文介绍的技术将所得的废酸通过浓缩精馏、酸化制得HCl气体、再吸收成盐酸以及酸化制备母液的再处理,不产生二次污染且零排放,从而实现了工业酸洗含铁废盐酸的资源化处理。废酸中Cl-的回收率达到85%,得到的工业精制盐酸浓度达34%,同时副产氧化铁红和磷肥。目前该技术已通过中试并经过了有关技术鉴定。实践证明,该技术用于含铁废盐酸的处理,可带来明显的经济效益,且环境友好,是目前代替中和法处理含铁废盐酸较为理想的方法,是一项实用的资源化综合利用绿色技术。     

Critical review of industrial and medical waste practices in Dar es Salaam City

Industrial and medical wastes constitute a larger part on what is known as ‘hazardous wastes’. The production of these wastes is and will continue to be an on going phenomenon as long as human civilization persists. The health impacts of direct and indirect exposure to hazardous wastes include carcinogenic effects, reproductive system damage, respiratory effects, central nervous system effects, and many others. Today, many developed countries have legal provisions with regard to proper management of hazardous wastes. Tanzania, like many developing countries, has little emphasis on the proper handling and disposal of hazardous wastes. There is a serious inadequacy in handling industrial and medical solid wastes in the Dar es Salaam City. Improper waste deposition is increasingly becoming a potential public health risk and an environmental burden. Due to poor control of waste, industrialists and hospital owners are not well checked on how they handle and dispose of the wastes they produce with the result that many hazardous wastes reach the Vingunguti dumpsite without notice. Data on waste generation in Dar es Salaam is also inadequate, making it difficult to plan an efficient solid waste system. Promotion of public awareness, legislation and regulations enforcement and establishment of a proper sanitary landfill are considered to be principal remedial measures to ensure sound environmental maintenance. This paper summarizes the findings of the study on the practices of industrial and medical waste management in Dar es Salaam. The author aims to express the inadequacy in hazardous waste management and suggests possible measures to be applied in order to rectify the situation.     

烤胶废料活性炭对含铬废水的处理能力

介绍了微波照射下氯化锌法制取烤胶废料活的方法,用该方法所制烤胶废料活性炭处理含废水的结果表明,烤胶废料活性炭具有吸附容量大,过滤速度快,操作控制方便等优点,活性炭对铬的吸附容量是市售一级粉末活性炭的１．８倍。     

Biodegradation of triclosan and formation of methyl-triclosan in activated sludge under aerobic conditions

Triclosan is an antimicrobial agent which is widely used in household and personal care products. Widespread use of this compound has led to the elevated concentrations of triclosan in wastewater, wastewater treatment plants (WWTPs) and receiving waters. Removal of triclosan and formation of triclosan-methyl was investigated in activated sludge from a standard activated sludge WWTP equipped with enhanced biological phosphorus removal. The removal was found to occur mainly under aerobic conditions while under anoxic (nitrate reducing) and anaerobic conditions rather low removal rates were determined. In a laboratory-scale activated sludge reactor 75% of the triclosan was removed under aerobic conditions within 150 h, while no removal was observed under anaerobic or anoxic conditions. One percent of the triclosan was converted to triclosan-methyl under aerobic conditions, less under anoxic (nitrate reducing) and none under anaerobic conditions.