Dynamic data for determining the accuracy of four open-circuit respiration chambers designed to quantify methane emissions from goats

O. Dhumez , J. Tessier , M. Eugène , A.I. Martín-García , A. Eymard , S. Giger-Reverdin , C. Duvaux-Ponter , R. Muñoz-Tamayo
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Abstract

Respiration chambers are the gold standard technique for measuring methane in ruminants provided that their gas recovery rates are close to 100%. The determination of the gas recovery rate of respiration chamber facilities is a central prerequisite to assess the accuracy of the methane emission quantification. However, data of recovery tests are seldom reported. This paper presents data from gas recovery tests applied to an experimental facility of four open-circuit respiration chambers designed to measure methane emissions from goats. The experimental facility is located at Thiverval-Grignon, France. The recovery test was assessed by placing a known source of methane emission at six locations in each chamber successively. For each chamber, the gas from the chamber and the ambient air were continuously sampled by a Multi-Gas Analyser 3500 gas analyser provided with a multiport unit that switches the sampling between the pipe from chamber and from the ambient air every 90 s. The analyser determines the concentration (ppm) of methane by infrared. The data were further imported in an R script for calculation of the methane recovery percentage. These data are useful resources for illustrating the protocol to assess the accuracy of respiration chambers.

用于确定四个开路呼吸室的准确性的动态数据,用于量化山羊的甲烷排放
呼吸室是测量反刍动物体内甲烷的黄金标准技术,前提是它们的气体回收率接近100%。呼吸室设施气体回收率的测定是评估甲烷排放定量准确性的核心前提。然而,有关恢复试验的数据很少报道。本文介绍了用于测量山羊甲烷排放的四个开路呼吸室实验设施的气体回收测试数据。实验设施位于法国的Thiverval-Grignon。通过在每个腔室的六个位置连续放置一个已知的甲烷排放源来评估回收试验。对于每个腔室,由Multi-Gas Analyser 3500气体分析仪连续采样来自腔室的气体和环境空气,该分析仪配备了一个多端口单元,每90秒在腔室的管道和环境空气之间切换采样。分析仪通过红外线测定甲烷的浓度(ppm)。将数据进一步导入R脚本,计算甲烷采收率。这些数据对于说明评估呼吸室准确性的方案是有用的资源。
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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