微波消解法测定水样中总氮

提出了用微波法对水和废水样品进行消解，测定总氮含量的实验方法．经过对实际样品的测定，证明与原有测定方法具有可比性，并具有操作简单、快速省时、测定准确的特点。     

微波消解体系与聚四氟乙烯滤膜对PM2.5中重金属测定的影响

采用4种微波消解体系对聚四氟乙烯(PTFE)材质滤膜采集的PM2.5样品进行消解,利用电感耦合等离子体质谱(ICP-MS)测定样品中Cr、Mn、Cu、As、Cd 5种重金属元素含量,并计算其空白加标和样品加标回收率,建立了测定PTFE材质滤膜采集的PM2.5样品中重金属元素的最优微波消解体系。结果表明,4种消解体系下,空白加标回收率和样品加标回收率均处于合理范围,分别为95.3%~116.3%和93.3%~118.5%。其中,HNO3放置过夜+H2O2消解体系具有空白值低、测定稳定性强、操作简便、绿色环保、对人体健康危害小等优点,能够满足大批量PM2.5样品中重金属总量的快速、高效、准确分析的要求。     

ASD-ICP-AES联用快速测定土壤中部分重金属

采用样品全自动消解系统(Automated Sample Digestion)对土壤样品进行前处理,采用ICP-AES对土样中的重金属元素一次性测定.通过优化实验,获得土壤中各种重金属的最佳消解条件.结果表明,经优化的消解程序A1能够快速、稳定消解土壤样品,并获得理想测试结果.经检验,ASD-ICP-AES联用的土样测...     

水系沉积物重金属分析前处理方法

建立了水系沉积物中6种重金属分析的前处理方法,研究了样品粒径、消解前处理对测定结果的影响,对方法适用性作出评价,并对实际样品进行测定。结果表明:通过Hg元素含量的测定,粒径为0.147 mm的沉积物粒径可满足分析要求;采用微波-硝酸-盐酸-氢氟酸消解、ICP-MS法,对5种不同类型沉积物标准样品的6种重金属的测定结果显示,该方法精密度好、准确度高。利用建立的方法测定广西某河流湖库沉积物样品,6种元素测定结果 RSD为1.57%~11.1%,加标回收率大于74.4%。     

微波消解预处理测定水和废水中总磷

提出一种用微波消解技术作为测定水和废水中总磷的预处理方法，这种消解方法只需10min即可，比用常规的高温高压消解法节省三分之一时间。用这身份种消解法对标样、地表水、海水、生活污水和工业废水样品进行了对比测定，所得结果经统计检验，两方法之间无显著性差异。对微波消解法的精密度和准确度进行了验证。     

土壤重金属含量测定不同消解方法比较研究

消解是影响土壤重金属测定结果准确性的关键步骤.比较电热板消解、微波消解和全自动石墨消解3种消解方法的操作流程,同时对不同类型土壤样品中Cu、Zn、Pb、Cd、Cr、Ni 6种元素含量进行对比测定,结果表明,电热板消解设备简单,但步骤繁锁,操作不当易造成组分损失;微波消解速度快,测定结果精密性和准确性较好,但仍需人工赶酸程序且罐位少,不适合大批量样品分析;全自动石墨消解不仅测定结果精密性和准确性较好,而且自动化程度高,可实现无人值守,大大节省人力,尤其适合大批量样品的分析.     

微波消解法测定有机磷农药废水中的总磷

应用微波消解技术进行了农药废水测定总磷的研究，考察微波消解方法的消解时间、功率对消解的影响，并将该方法与GB11893—1989《钼酸铵分光光度法》中规定的消解方法进行比较．实验证明，微波消解法操作简便，测定结果准确可靠．     

微波消解和ASD消解ICP-MS测定土壤中重金属元素的比较

采用微波消解和ASD消解2种消解方式对不同土壤样品进行消解,ICP-MS测定其中重金属含量。微波和ASD2种消解方式均能够较好地提取土壤中的Cr、Co、Ni、Mn和V元素,实验结果的相对误差和相对标准偏差均≤10%,符合实验分析的要求。微波消解精密度优于ASD,可作为优先选择的前处理方法。     

ICP-AES法和分光光度法测定工业废水中总磷的方法比较

用ICP-AES法和分光光度法同时测定4种不同工业废水中的总磷含量,将2种方法的测定结果作比对。试验表明,ICP-AES法对国家标准样品的测定结果具有较高的准确度和精密度,4种废水样品测定结果的加标回收率为94.0%~110%,RSD在0.9%~3.2%之间。分光光度法适用于低浓度、低干扰样品的测定,对于高浓度含磷废水,取样体积和样品稀释倍数均会对其测定结果产生显著影响。消解样品经浊度-色度补偿后,分光光度法的测定结果精密度较低。     

微波消解技术在沉积物样品重金属元素分析中的应用

通过利用微波消解—原子吸收法测定标准河流沉积物样品中重金属元素Cu、Ni、Zn、Mn的含量，优化了微波消解的工作条件，并与电热板消解法进行了比对试验。结果表明，微波消解法与传统方法相比无显著性差异，且高效快速、试剂消耗量少、节约能源。     

水样中有机磷的微波消解

采用微波消解系统对水样中有机磷进行消解,考察了消解时间、功率等不同实验条件对样品微波消解的影响;并将该法与总磷测定的常规消解方法进行了比较,结果表明,微波消解法简便、快速、准确、可靠     

Heavy metals pollution in a sewage treatment oxidation pond and the receiving stream of the Obafemi Awolowo University, Ile Ife, Nigeria

This work centered on a 1-year evaluation campaign of point source pollution from a sewage treatment oxidation pond and its receiving stream. Water samples were collected from the sewage treatment oxidation pond and the receiving stream during July 2002 and June 2003. Concentrations of heavy metals were determined using Inductively Coupled Plasma-Mass Spectrometry (ICP-MS) after a triple acid digestion of samples using open beaker method. Generally, the results showed high levels of toxic metals such as Cd, Pb, As, Al, Cr, Mn, Co, and Fe in the influent and effluent samples as well as in the receiving stream. The annual mean concentration of metals in the sewage samples ranged from 11.90 to 16.05, 64.96 to 88.27, 38.91 to 76.35, 17.46 to 24.45 mug/L for Cd, As, Pb, Co, and 4.31 to 8.77, 1.71 to 2.45, 0.46 to 0.74 and 13.82 to 20.47 mg/l for Al, Cr, Mn and Fe, respectively; while in the receiving stream, the concentrations were between 6.89 to 10.45, 35.50 to 59.26, 22.85 to 35.94, 11.33 to 18.83 mug/l for Cd, As, Pb, Co, and 1.99 to 3.49, 1.35 to 2.08, 0.21 to 0.48, and 8.93 to 14.15 mg/l for Al, Cr, Mn and Fe, respectively. The discharge of the effluent from the sewage pond into the receiving stream has therefore led to increase in the concentrations of some heavy metals downstream, thus impacting the receiving stream negatively and could pose a serious health hazard to aquatic ecosystems and humans particularly for rural dwellers and peasant farmers downstream that utilize the water from the receiving stream for various domestic and agricultural purposes untreated.     

海洋沉积物中多种重金属的X射线荧光分析法

建立了海洋沉积物中包括砷、铜、铅、锌、镍和总铬在内的多种重金属X射线荧光分析法,测量不需要任何消解前处理过程,可在约1h内测量1个样品中的50余种元素,用该方法分析了8个海洋沉积物标准样品,还与原子荧光光谱法或原子吸收分光光度法比对分析了2个实际样品,结果表明,该方法可信度较高,且具有快速、简便、高效等特点,是一种非破坏性分析方法。     

Impact assessment of various parameters polluting Ganga water in Kolkata Region: a study for quality evaluation and environmental implication

The quality of sewage-sludge samples obtained in Kolkata region was evaluated. Both sewage water and sludge components were analyzed for a number of physico-chemical, microbiological parameters using standard laboratory procedures, some heavy metals by AAS method and pesticide contents by GC method. Some of the physical and chemical constituents of the samples are within the allowable levels while the rest are not. The samples are rich in nutrients and have suitable pH for agricultural uses. In terms of Electrical Conductivity and Sodium Adsorption Ratio, sewage water is not suitable for irrigation. Fecal and coliform bacterial population is high in all samples. Pesticide and heavy metals in some places are alarming. So sewage-sludge produced in Kolkata cannot be used for agricultural purpose without any treatment. Thus proper care, maintenance, treatment and disposal of sewage water and sludge are most vital and should be the prime thrust for the nation.     

湿式消解法对冷原子吸收测定生物样品中汞产生的干扰

用不同的湿式消解法对多种生物样品的进行消解测定,分析了实验的干扰因素,并推荐了比较适宜的消解方法。     

日本废弃物的管理制度与研究现状 Ⅲ.日本废弃物的试验分析方法体系 (B)产业废弃物的采样与制样方法

本文介绍了日本产业废弃物的采样方法并详细介绍了溶出试验和含量试验试液的制备方法及其适用范围,对测定重金属用试液的前处理方法也做了简要介绍。     

Impact of sewage contaminated water on soil, vegetables, and underground water of peri-urban Peshawar, Pakistan

The use of sewage-contaminated municipal water for irrigation of crops is an old practice in many big cities of Pakistan. Since the wastewater is rich in nutrients, it increases crops yield substantially but at the cost of food quality. The objective of this study was to investigate sewage water irrigation as a source of accumulation of heavy metals in soil and its subsequent transfer to crops and underground water. Sewage water, soil, groundwater, and crop samples were collected from selected areas around Peshawar city and analyzed for heavy metals concentration by atomic absorption spectroscopic method. Analysis of data revealed a considerable impact of the irrigation practices in the peri-urban Peshawar. Statistical analysis of the data showed a positive correlation between heavy metals concentration and soil carbon contents on the one hand and cation exchange capacity on the other. A strongly negative correlation was observed between metal contents and soil pH. The vertical movement of heavy metals from contaminated soil has polluted crops and underground water. The results indicated higher concentration of toxic metals in soil accumulated due to long-term sewage-contaminated water irrigation and their subsequent transfer to our food chain. The practice, if continued un-noticed may pose a threat of phytotoxicity to the local population.