Assessing the value of kinetic results from biochemical methane potential tests: Reproducibility from a large inter-laboratory study

Cleaner Chemical Engineering Pub Date : 2022-12-01 DOI:10.1016/j.clce.2022.100065

Sasha D. Hafner , Sergi Astals , Christof Holliger , Konrad Koch , Lisa Nielsen , Lina Refsahl , Sören Weinrich

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引用次数: 2

Abstract

Kinetic information extracted from biochemical methane potential (BMP) tests is often reported but its value is unclear. Inter-laboratory reproducibility provides a useful indication of its value. Here we extracted estimates of the first-order rate constant $k$ from 1259 methane production curves collected in a large inter-laboratory study on BMP in order to quantify reproducibility. Reproducibility in $k$ was poor; relative standard deviation was 50–140%. Substrate comparisons ( $k$ for one substrate compared to another) also had low reproducibility, regardless of low $p$ values from inferential statistical tests. The use of a shared inoculum did not improve reproducibility in $k$ . We conclude that $k$ estimates from BMP tests only partially reflect intrinsic substrate properties. Therefore, interpretation and application of batch kinetic results should be done cautiously.

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评估生化甲烷电位测试的动力学结果的价值:来自大型实验室间研究的可重复性

从生化甲烷势(BMP)测试中提取的动力学信息经常被报道，但其价值尚不清楚。实验室间的可重复性为其价值提供了有用的指示。在这里，我们从一项大型实验室间BMP研究中收集的1259条甲烷生产曲线中提取了一阶速率常数k的估计值，以量化再现性。k的重现性较差;相对标准偏差为50-140%。底物比较(一种底物与另一种底物的k值)也具有较低的可重复性，无论推断统计检验的p值是否低。共享接种物的使用并没有提高k的可重复性。我们得出结论，BMP测试的k估计仅部分反映了内在的底物特性。因此，对间歇动力学结果的解释和应用应谨慎。

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Cleaner Chemical Engineering

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