Volumetric behaviour of (carbon dioxide + hydrocarbon) mixtures at high pressures

arXiv - PHYS - Chemical Physics Pub Date : 2024-09-17 DOI:arxiv-2409.10973

Johnny Zambrano, Franklin V. Gómez-Soto, Daniel Lozano-Martín, M. Carmen Martín, José J. Segovia

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Abstract

The interest of oil industry in increasing heavy oil production has promoted the use of enhanced oil recovery techniques such as $CO_{2}$ injection, which produce a decrease of oil viscosity and displacement of heavy oil from reservoir to surface. The design of these processes requires accurate data of densities, viscosities or surface tensions of ($CO_{2}$ + hydrocarbon) mixtures in order to simulate the behaviour of these mixtures in the reservoir. An automated Anton Paar DMA HPM vibrating-tube densimeter was used to measure densities of this kind of mixtures, and a new mixture injection system, by means of two syringe pumps, was developed for the densimeter. The equipment operates at high pressure, which is controlled through a back pressure valve and a variable volume cylinder with a stepper motor. The estimated standard uncertainty of the density is $\mathrm{\pm0.9 \ kg \cdot m^{-3}}$ at temperatures below 373.15 K and pressure range (0.1-140) MPa.In this paper, the densities of the mixtures ($CO_{2}$ + $n$-decane), ($CO_{2}$ + $n$-dodecane) and ($CO_{2}$ + squalane) are reported at $T$ = (283.15-393.15) K and $p$ = (10-100) MPa.

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二氧化碳+碳氢化合物）混合物在高压下的体积特性

石油工业对提高重油产量的兴趣促进了提高石油采收率技术的使用，如注入 CO{2}$ 等，这些技术可降低石油粘度并将重油从储层移至地表。这些工艺的设计需要（CO_{2}$ + 碳氢化合物）混合物的密度、粘度或表面张力的精确数据，以便模拟这些混合物在储层中的行为。使用自动化的安东帕 DMA HPM 振动管密度计测量这类混合物的密度，并通过两个注射泵为密度计开发了新的混合物注入系统。设备在高压下运行，通过一个背压阀和一个带步进电机的可变容积气缸进行控制。在温度低于 373.15 K 和压力范围为 (0.1-140) MPa 时，密度的估计标准不确定度为 $\mathrm{\pm0.9 \ kg \cdot m^{-3}}$ 。本文报告了 ($CO_{2}$ + $n$-decane), ($CO_{2}$ + $n$-dodecane) 和 ($CO_{2}$ + squalane) 混合物在 $T$ = (283.15-393.15) K 和 $p$ =(10-100) MPa 时的密度。

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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