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常规、微波和超声顺序提取塞尔维亚石化工业沉积物中的金属。

Conventional, microwave, and ultrasound sequential extractions for the fractionation of metals in sediments within the Petrochemical Industry, Serbia.

机构信息

Faculty of Chemistry, University of Belgrade, PO Box 51, Belgrade 11158, Serbia.

出版信息

Environ Monit Assess. 2013 Sep;185(9):7627-45. doi: 10.1007/s10661-013-3124-4. Epub 2013 Feb 19.

DOI:10.1007/s10661-013-3124-4
PMID:23420522
Abstract

In this paper, the main objective was fractionation of Cd, Cu, Ni, Pb, Zn, Ca, Fe, and K in certificate material and sediment samples gathered from and around the Petrochemical Industry using the conventional, microwave and ultrasonic sequential extraction. Microwave oven and ultrasound bath were used as an energy source for achieving faster extraction. Additional heating and boiling of samples were avoided by using lower power and shorter time for microwave and ultrasound extraction. Precision and accuracy of procedure were evaluated by using certificate material (BCR701). Acceptable accuracy of metals (87.0-111.3 %) was achieved for all three-step sequential of conventional extraction protocol. An accuracy of the fourth step has been verified with two certificate materials: BCR143R and 146R. The range of total extracted metal concentrations from sediments was similar for all three extraction techniques. A significant high percentage of Cd, Cu, and Zn were obtained after extraction of the exchangeable and acid soluble sediment fraction. Principal component analysis of values obtained after determination of risk assessment code using conventional and ultrasound sequential extraction show similarity of these values. Accuracy, recovery, and risk assessment code values imply that ultrasound sequential extraction is a more suitable, accelerated sequential extraction procedure (30 min per extraction step) than microwave extraction in applied conditions.

摘要

本文的主要目标是使用常规、微波和超声顺序提取法对来自石化工业及其周边地区的证书材料和沉积物样品中的 Cd、Cu、Ni、Pb、Zn、Ca、Fe 和 K 进行分离。微波炉和超声浴被用作能源,以实现更快的提取。通过使用较低的功率和较短的时间进行微波和超声提取,避免了样品的额外加热和沸腾。通过使用证书材料(BCR701)来评估程序的精密度和准确性。对于常规提取方案的所有三步顺序,都可以达到金属(87.0-111.3%)的可接受精度。已经使用两种证书材料(BCR143R 和 146R)验证了第四步的准确性。从沉积物中提取的总金属浓度范围在所有三种提取技术中相似。在提取可交换和酸溶性沉积物部分后,获得了 Cd、Cu 和 Zn 的高比例。使用常规和超声顺序提取法确定风险评估码后,对获得的值进行主成分分析,表明这些值具有相似性。准确度、回收率和风险评估码值表明,在实际应用中,超声顺序提取(每个提取步骤 30 分钟)比微波提取更适合作为加速顺序提取程序。

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