The inherent variability of some environmental analytical methods hampers the circular economy of materials

IF 1.2 Q4 ENGINEERING, ENVIRONMENTAL Detritus Pub Date : 2022-11-30 DOI:10.31025/2611-4135/2022.16225
P. Hennebert, Anne-Françoise Stoffel, Mathieu Hubner, Daniel Fortmann, P. Merdy, Giovanni Beggio
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Abstract

This paper is the third part of three papers on sampling by the number of particles, focusing on analytical variability. The objective is to propose a target variability of waste and contaminated soil analyses (extraction and quantification), that can be used for calculation of the size of a representative sample. Data of intra- and inter-laboratory variability are presented. As the variability of the quantification step (after extraction) is limited in waste and soil analyses to about 0.01, the analytical variability stems from three main sources: (i) non-homogeneous test portions; (ii) for partial extraction methods, variable extraction rate, due to presence of options in the method or insufficient time for equilibrium (leaching or percolation test, biotests); and (iii) ill-defined solid/liquid separation (leaching or percolation tests), critical since there are colloids and nanoparticles in the leachates, representing from 0 to 100% of the element fraction in the leachate. Counter-intuitively, the centrifugation (annex E of EN 12457) series before the 450 nm-filtration delivers leachates more concentrated in particles (median size 150 nm, 1 sample) and statistically more concentrated in elements (+13%, 27 samples, 287 paired data). Without centrifugation, the filter cake that builds up on the membrane is an additional filter. A target intra-laboratory variability of CVr = 0.10 (10%) and inter-laboratory variability of CVR = 0.20 (20%) is proposed for all analytical methods. The methods with higher CVr and CVR should be revisited to not jeopardise the sampling and characterisation efforts of waste and soil, particularly for valorisation in the circular economy.
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一些环境分析方法的固有可变性阻碍了材料的循环经济
本文是三篇关于按粒子数采样的论文的第三部分,主要研究分析变异性。目的是提出废物和污染土壤分析(提取和定量)的目标可变性,可用于计算代表性样本的大小。给出了实验室内和实验室间变异性的数据。由于定量步骤(提取后)的可变性在废物和土壤分析中被限制在约0.01,分析可变性源于三个主要来源:(i)非均质测试部分;(ii)对于部分提取方法,由于方法中存在选项或平衡时间不足(浸出或渗滤试验、生物试验),提取率可变;以及(iii)不明确的固体/液体分离(浸出或渗滤试验),这是至关重要的,因为浸出液中存在胶体和纳米颗粒,占浸出液中元素组分的0-100%。与直觉相反,在450nm过滤之前的离心(EN 12457的附件E)系列提供了更集中在颗粒中的浸出物(中值尺寸150nm,1个样品),并且在统计上更集中在元素中(+13%,27个样品,287个配对数据)。在没有离心的情况下,积聚在膜上的滤饼是一个额外的过滤器。所有分析方法的目标实验室内变异性CVr=0.10(10%)和实验室间变异性CVr=0.20(20%)。应重新考虑CVr和CVr较高的方法,以避免危害废物和土壤的采样和表征工作,特别是循环经济中的增值工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Detritus
Detritus ENGINEERING, ENVIRONMENTAL-
CiteScore
3.30
自引率
23.50%
发文量
45
审稿时长
15 weeks
期刊最新文献
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