天然气混合物的精确实验（$p$、$ρ$、$T$）数据，用于评估处理富氢天然气时的参考状态方程

arXiv - PHYS - Chemical Physics Pub Date : 2024-09-15 DOI:arxiv-2409.09672

Roberto Hernández-Gómez, Dirk Tuma, Daniel Lozano-Martín, César R. Chamorro

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引用次数: 0

摘要

GERG-2008 状态方程是已获批准的 ISO 标准（ISO 20765-2），用于计算天然气混合物的热物理性质。由于原产地的多样性，天然气的组成可能会有很大不同。通过添加氢气、沼气或其他非常规能源气体，天然气的成分会进一步多样化。在这项工作中，报告了两种用重力法制备的合成天然气混合物的高精度实验（$p$, $\rho$, $T$）数据。一种混合物类似于由 11 种组分（11 M）组成的传统天然气，以甲烷为基质化合物的标称混合物成分（物质的量分数）为 0.8845。另一种混合物是 13 组分的富氢天然气，热值较低，甲烷的标称成分为 0.7885。密度测定是在等温工作模式下，使用带磁悬浮耦合的单沉降片密度计，在 260 至 350K 的温度和高达 20 兆帕的压力下进行的。数据与根据 GERG-2008 和 AGA8-DC92 状态方程计算的相应密度进行了比较，以测试它们在实际混合物中的性能。对于 11 M 和 13 组分 $H_{2}$ 富集的混合物，与 GERG-2008（AGA8-DC92）的平均绝对偏差分别为 0.027% (0.078%)和 0.095% (0.062%)。相应的与 GERG-2008 (AGA8-DC92) 的最大相对偏差为：11 M 为 0.095% (0.127%)，富含 $H_{2}$ 的混合物为 0.291% (0.193%)。

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Accurate experimental ($p$, $ρ$, $T$) data of natural gas mixtures for the assessment of reference equations of state when dealing with hydrogen-enriched natural gas

The GERG-2008 equation of state is the approved ISO standard (ISO 20765-2) for the calculation of thermophysical properties of natural gas mixtures. The composition of natural gas can vary considerably due to the diversity of origin. Further diversification was generated by adding hydrogen, biogas, or other non-conventional energy gases. In this work, high-precision experimental ($p$, $\rho$, $T$) data for two gravimetrically prepared synthetic natural gas mixtures are reported. One mixture resembled a conventional natural gas of 11 components (11 M) with a nominal mixture composition (amount-of-substance fraction) of 0.8845 for methane as the matrix compound. The other mixture was a 13-component hydrogen-enriched natural gas with a low calorific value featuring a nominal composition of 0.7885 for methane. Density measurements were performed in an isothermal operational mode at temperatures between 260 and 350 K and at pressures up to 20 MPa by using a single-sinker densimeter with magnetic suspension coupling. The data were compared with the corresponding densities calculated from both GERG-2008 and AGA8-DC92 equations of state to test their performance on real mixtures. The average absolute deviation from GERG-2008 (AGA8-DC92) is 0.027% (0.078%) for 11 M and 0.095% (0.062%) for the 13-component $H_{2}$-enriched mixture, respectively. The corresponding maximum relative deviation from GERG-2008 (AGA8-DC92) amounts to 0.095% (0.127%) for 11 M and 0.291% (0.193%) for the $H_{2}$-enriched mixture.

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arXiv - PHYS - Chemical Physics

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