A novel technique based on a cylindrical microwave resonator for high pressure phase equilibrium determination

arXiv - PHYS - Chemical Physics Pub Date : 2024-09-12 DOI:arxiv-2409.08144

Rodrigo Susial, Ángel Gómez-Hernández, Daniel Lozano-Martín, Dolores del Campo, M. Carmen Martín, José J. Segovia

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Abstract

The development of a novel technique based on a cylindrical microwave resonator for high pressure phase equilibrium determination is described. Electric permittivity or dielectric constant is a physical property that depends on temperature and pressure $\epsilon$($p$,$T$). Based on this property, a measuring technique consisting of a cylindrical resonant cavity that works in the microwave spectrum has been developed. Equilibrium data of fluid mixtures are measured at high pressure using a synthetic method, where phase transition is determined under isothermal conditions due to the change of the dielectric constant. This technique may be a more accurate alternative to conventional visual synthetic methods. The technique was validated measuring pure $CO_{2}$, and phase behaviour was then determined for two binary mixtures [$CO_{2}$ (0.6) + $CH_{4}$ (0.4)] and [$CO_{2}$ (0.4) + $CH_{4}$ (0.6)], results for which are presented. These systems are interesting for the study of biogas-like mixtures. In addition, data were compared with the equation of state used for natural gas GERG-2008, and also, they were modelled using Peng-Robinson equation of state and Wong-Sandler mixing rules, which are widely employed in chemical industries and which give good results.

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基于圆柱形微波谐振器的高压相平衡测定新技术

电导率或介电常数是一种物理特性，取决于温度和压力 $/epsilon$($p$,$T$)。电介电常数是一种物理特性，它取决于温度和压力$epsilon$($p$,$T$)。根据这一特性，我们开发了一种测量技术，它由一个在微波频谱中工作的圆柱形谐振腔组成。利用合成方法在高压下测量了流体混合物的平衡数据，由于介电常数的变化，在等温条件下确定了相变。与传统的视觉合成方法相比，这种技术可能是一种更精确的替代方法。在测量纯净的 $CO_{2}$ 时对该技术进行了验证，然后测定了两种二元混合物[$CO_{2}$ (0.6) + $CH_{4}$ (0.4)] 和 [$CO_{2}$ (0.4) + $CH_{4}$ (0.6)] 的相行为，并给出了结果。这些系统对于研究类似沼气的混合物很有意义。此外，还将数据与用于天然气 GERG-2008 的状态方程进行了比较，并使用彭-罗宾逊（Peng-Robinson）状态方程和黄-桑德勒（Wong-Sandler）混合规则对其进行了模拟。

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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arXiv - PHYS - Chemical Physics

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