复合膜过滤法采样检测空气中的微生物

以无机膜为支撑膜,以壳聚糖醋酸溶液为涂层溶液制成壳聚糖复合膜,用以采样和检测空气中的微生物.通过空气中细菌采样以及大肠杆菌噬茵体模拟采样实验来表征壳聚糖复合膜作为采样用膜的特性.通过和其他方法的对比实验表明,壳聚糖复合膜具有良好的截留微生物气溶胶的能力,复合过滤法是一种较准确的采样检测空气中微生物的方法.     

全自动处理充电蓄电池废液

采用化学沉淀法，研制开发全自动一体化处理充电蓄电池废液，出水的pH、总隔和总铅三项指标均符合《污水综合排放标准》（GB8979-1996）中一级排放标准，总隔和总铅的去除率达到99．8％以上，处理效果良好。     

吹扫捕集-气相色谱-质谱法测定水中痕量丁基黄原酸

建立了吹扫捕集-气相色谱-质谱联用测定水中丁基黄原酸的方法.丁基黄原酸在酸性条件下分解成易挥发的二硫化碳,经吹扫捕集富集后用气相色谱分离质谱定量测定.与传统的分光光度法相比,更简便快捷,在0.25～10.0μg/L范围内线性良好,准确度高,添加回收率为98.3％～105％,精密度好,相对标准偏差为5.92％ ～ 10.7％,方法检出限为0.07μg/L.与顶空法相比,灵敏度更高.     

混合型表面活性剂乳状液膜法处理氨氮废水的研究

采用正交设计试验，考察了使用混合表面活性剂乳状液膜法处理氨氮废水的影响因素，实验结果表明：外水相（废水）的pH值为11．4％Span80和2％T151的混合表面活性剂、内相硫酸浓度为18％、膜内比2：1、乳水比1：15、制乳时间10min、转速2400r/min、混合时间10min，对氨氮去除率达到99．9％以上。在此最佳条件下，用于实际水样的处理取得满意结果。     

表面活性剂存在下铁-邻菲罗啉-曙红分光光度法的研究

研究了表面活性剂(乳化剂OP)存在下,铁、邻菲罗啉、曙红的显色反应.该离子缔合物的最大吸收波长为545 nm,摩尔吸光系数为9.4×104 L·mol-1·cm-1,铁含量在0-0.4 mg/L内符合比耳定律.以自来水为基体进行铁的回收实验,回收率在99%以上.     

颗粒活性炭负载TiO2薄膜用于染料污水脱色的研究

研究了溶胶-凝胶法制备以活性炭为载体的TiO2膜。通过实验确定了溶胶一凝胶体系的最佳组成,对涂膜的次数、煅烧温度、保温时间等因素进行实验,确定了涂膜的最佳工艺,并用于处理有机染料污水,脱色率达92％。     

废干电池铜帽中铜锌分离与回收

本文研究了一种回收废干电池铜帽中Cu、Zn的有效方法．此方法是利用锌粉还原酸溶解后溶液中的Cu^2＋形成海绵铜，其纯度达到85％，铜帽中Cu的回收率达96％．沉淀Cu后的溶液经进一步处理可制备出ZnO，纯度达97％以上．     

测油项目中四氯化碳的回收利用

操作过程:①将四氯化碳废液通过长颈漏斗倾入精馏容器内,废液约占容器体积的2/3.②将水浴锅温度控制在95～100℃,在精馏容器外用一湿布缠绕包裹,可提高精馏速度.③当四氯化碳蒸气馏出口温度达到接收温度时即可用洁净棕色玻璃瓶接收.④为实现较大批量的提纯、连续精馏,可在精馏器内尚有余液且馏出口温度未下降时,停止接收馏出液,将另一批四氯化碳废液倒人精馏容器内,继续升温精馏.     

环境监测实验室废液的管理与处理方法

环境监测实验室的废液处理常常被忽视,提出建立有效的废液管理制度的必要性.有针对性地介绍了环境监测实验室中常见废液的处理方法.     

高效液膜分离富集测定微量铜

应用高效乳状液膜技术分离、富集水和土壤样品中微量铜（Ⅱ）．研究了流动载体（Ｐ２０４）、表面活性剂（ＳＰａｎ８０）、膜的增强剂（液体石蜡）、膜溶剂（煤油）和内相解吸剂（２．５ｍｏｌ／ＬＨ２ＳＯ４）等液膜体系，对分离富集微量铜（Ⅱ）的影响．确定了Ｓｐａｎ８０—Ｐ２０４─液体石蜡─煤油─Ｈ２ＳＯ４高效液膜体系的最佳组成和最适宜的实验条件．富集后的溶液用１－（２－吡啶偶氮）－２－萘酚（ＰＡＮ）分光光度法测定铜（Ⅱ）．用本法富集水和土壤中微铜（Ⅱ）．回收率在９９％以上。应用于测定水和土壤中的微量铜．相对标准偏差为１．２％～４．５％。     

南通钢绳产业区儿童发铅、发锌水平调查与评价

为调查南通市钢绳产业区儿童发铅、发锌水平,对67名5～7岁健康儿童进行了发铅、发锌的检测.结果表明:当地环境因素并没有影响儿童的身体健康.钢绳产业区学龄前儿童发铅和发锌含量的平均值均在正常参考标准值内,儿童发铅超标率为7.5％,远远低于1998年市区儿童的发铅超标率.钢绳产业区与其他地区学龄儿童发铅、发锌的含量也并没有...     

准液膜富集环境水中痕量金属离子

对准液膜法富集环境水中痕量Ｚｎ２＋、Ｃｄ２＋、Ｐｂ２＋进行了研究,此法简单、快速,富集倍数达１００倍,回收率在９５％以上。     

Comparison of static and mineralogical ARD prediction methods in the Nordic environment

Acid rock drainage (ARD) is a major problem related to the management of mining wastes, especially concerning deposits containing sulphide minerals. Commonly used tests for ARD prediction include acid–base accounting (ABA) tests and the net acid generation (NAG) test. Since drainage quality largely depends on the ratio and quality of acid-producing and neutralising minerals, mineralogical calculations could also be used for ARD prediction. In this study, several Finnish waste rock sites were investigated and the performance of different static ARD test methods was evaluated and compared. At the target mine sites, pyrrhotite was the main mineral contributing to acid production (AP). Silicate minerals were the main contributors to the neutralisation potential (NP) at 60% of the investigated mine sites. Since silicate minerals appear to have a significant role in ARD generation at Finnish mine waste sites, the behaviour of these minerals should be more thoroughly investigated, especially in relation to the acid produced by pyrrhotite oxidation. In general, the NP of silicate minerals appears to be underestimated by laboratory measurements. For example, in the NAG test, the slower-reacting NP-contributing minerals might require a longer time to react than is specified in the currently used method. The results suggest that ARD prediction based on SEM mineralogical calculations is at least as accurate as the commonly used static laboratory methods.     

典型钢铁企业汞排放水平及排放特征研究

以某典型钢铁企业为研究对象,测定企业废气、废水、固废汞排放水平,并分析汞排放特征。研究表明,球团、烧结、高炉工艺废气排口烟尘中汞排放浓度和排放速率明显低于烟气;汞主要以气态形式排放,烧结工艺排口废气汞最高浓度分别是其他2个排口的7倍和3倍。球团、烧结、高炉、电炉四工艺环节中,烧结汞排放速率占四工艺汞排放速率总和的87%。半干法脱硫、氨法脱硫、石灰石石膏脱硫对废气中汞的去除效率分别为90.0%、78.7%和29.9%。企业废水排放未检出汞,脱硫产生固废汞含量明显高于除尘产生固废汞含量,脱硫灰汞含量是脱硫石膏的15倍。     

化学吸收法采集固定污染源氨气的影响因素探究

固定污染源氨气的手工监测，干扰因素较多，其中采样环节尤为关键。实验通过催化氧化-化学发光法考察不同采样管线材质对氨气的吸附效果，离子色谱法考察化学吸收法采集氨气的吸收瓶类型、采样流量、吸收液种类、吸收液浓度及体积等采样条件对氨气吸收效率的影响。实验表明，316 L不锈钢与聚四氟乙烯对氨气的吸附较小，氨气的采样流量不宜超过1.0 L/min,棕色气泡式吸收瓶更适用于氨气样品的采集，磷酸溶液作吸收液对氨气的吸收效率较好，对于低浓度的氨气样品，应采用低流量长时间采集。     

某钢丝绳典型产业区土壤重金属含量现状调查

以钢丝绳产业集聚区内的土壤为研究对象，采集和分析产业区中心河两边淹水环境下的水稻田、少用受污染河水灌溉的棉花田及不用受污染河水灌溉的蔬菜地样本，结果表明，产业区内土壤中铅和锌的含量明显高于产业区外。产业区内除水稻田土壤中铅的质量比超过评价参比值外，其他灌溉方式下土壤中铅和锌的质量比均未超过《土壤环境质量标准》（GB 15618-1995）中的二级标准（pH值＞7）。统计分析表明，土壤中的重金属含量与废水灌溉方式有关，该产业区内土壤外源重金属来自钢丝绳产业的可能性很大。在不同的灌溉方式下，土壤剖面样品中的重金属含量随着土壤深度增加呈现降低的趋势，2010年和2011年的测定结果无显著差异。     

Identification and leaching characteristics of sludge generated from metal pickling and electroplating industries by Toxicity Characteristics Leaching Procedure (TCLP)

One of India's major concerns is the increasing level of land pollution largely due to the uncontrolled disposal of industrialsolid and hazardous waste. With rapid industrialization, thegeneration of industrial solid and hazardous waste has increasedappreciably and the nature of waste generated has become complex.Their impacts on the ecological bodies are noticeable. The article describes the details of studies conducted using Toxicity Characteristics Leaching Procedure, to estimate the toxicity effects of the metals viz., chromium, zinc, manganese,iron, nickel, cobalt and copper by the Zero Headspace Extractorfor the sludges generated from effluent treatment plant of steeltube, wire and plating industries on environment constituentslike groundwater, surface water and land. Toxicity Characteristics Leaching Procedure determines the mobility of organic and inorganic analytes of liquid, solid or multiphase waste from hazardous solid wastes in the form of primary and secondary extracts. These extracts are mixed in equal volumeproportion and analyzed by Direct Reading 2000 spectrophotometer.The amount of heavy metals observed during the studies in theleachates were found and the results were compared with HazardousWaste categories as per Indian Standards, TCLP regulatory limitsgiven by United States Environment Protection Agency (USEPA) andGermany Leachate Quality Standards and it was observed that theywere on higher side, needing a proper preventive concept of sludge management including handling, treatment, recovery and disposal.     

Prediction of AMD generation potential in mining waste piles, in the sarcheshmeh porphyry copper deposit, Iran

This study investigates the possibility of acid mine drainage (AMD) generation in active and derelict mine waste piles in Sarcheshmeh Copper Mine produced in several decades, using static tests including acid–base accounting (ABA) and net acid-generating pH (NAGpH). In this study, 51 composite samples were taken from 11 waste heaps, and static ABA and NAGpH tests were carried out on samples. While some piles are acid producing at present and AMD is discharging from the piles, most of them do not show any indication on their AMD potential, and they were investigated to define their acid-producing potential. The analysis of data indicates that eight waste piles are potentially acid generating with net neutralization potentials (NNPs) of ?56.18 to ?199.3, net acid generating of 2.19–3.31, and NPRs from 0.18 to 0.44. Other waste piles exhibited either a very low sulfur, high carbonate content or excess carbonate over sulfur; hence, they are not capable of acid production or they can be considered as weak acid producers. Consistency between results of ABA and NAGpH tests using a variety of classification criteria validates these tests as powerful means for preliminary evaluation of AMD/ARD possibilities in any mining district. It is also concluded that some of the piles with very negative NNPs are capable to produce AMD naturally, and they can be used in heap leaching process for economic recovery of trace amounts of metals without applying any biostimulation methods.     

铜矿尾矿污染的综合治理

对铜矿选矿过程中产生的尾矿浆进行机械压滤,滤水循环利用,尾矿渣用于制砖,实现选矿废水、废渣零排放。一直困绕着铜矿选矿的尾矿污染难题被攻破     

土壤重金属元素检测国际实验室比对研究

IERM和CNAS合作组织开展了亚太实验室合作组织(APLAC)能力验证计划"APLAC T066土壤重金属元素检测",其目的是评价参加实验室定量分析土壤重金属元素总量的能力。研究所用的能力验证样品为IERM研制的土壤标准样品。结果表明,参加实验室检测土壤砷、铜、汞、镍、铅和锌的结果满意率分别为85.7%、95.8%、77.1%、83.3%、93.5%和91.7%。样品消解过程加入氢氟酸时,铅和锌的检测结果与标准值更加接近,说明检测土壤重金属元素总量时氢氟酸的加入非常关键。文章还对比对实验室结果评价的统计方法进行了探讨。