Screening In Situ Combustion Applicability for a Heavy Oil Candidate Reservoir with an Accelerating Rate Calorimeter

R. Fazlyeva, D. Mallory, R. Moore, S. Mehta, A. Cheremisin
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引用次数: 2

Abstract

Air injection has immense potential for hydrocarbon recovery from various reservoirs. One of the screening techniques which can be applied to evaluate a candidate oil for the air injection process is the accelerating rate calorimeter (ARC). The unique feature of this instrument is that it can provide adiabatic conditions and handle experiments at high pressures. This paper reviews four tests performed in closed and flowing ARCs to fingerprint and observe the thermal behavior of a crude oil. The crude oil used for this study is characterized as a 19.3°API and viscosity of 710 mPa.s at 21°C. The oxidation experiments were performed under two scenarios of oil-only and oil in the presence of native carbonate core. Initial starting conditions of each test were at a temperature of 23°C and a reservoir pressure of 13.8 MPa. Flowing ARC experiments showed that Low-Temperature Oxidation occurs at a temperature of about 150°C, whereas ignition occurs at about 350°C when High-Temperature Oxidation region was dominant. However, when using the closed ARC, the thermal behavior of the studied oil appeared to have different temperature characteristics, and the onset of the maximum self-heat rate occurred at temperature of 288°C. The effect of the vapor phase combustion as well as the calculation of kinetic parameters are also discussed in this work.
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用加速量热计筛选稠油候选储层的原位燃烧适用性
注气对各种油藏的油气开采具有巨大的潜力。加速量热计(ARC)是一种可用于评价空气喷射工艺候选油的筛选技术。该仪器的独特之处在于它可以提供绝热条件并在高压下进行实验。本文综述了在封闭和流动电弧中进行的四项试验,以指纹和观察原油的热行为。本研究使用的原油API为19.3°,粘度为710 mPa。s在21°C。氧化实验分为纯油氧化和含天然碳酸盐岩心氧化两种情况。每次试验的初始启动条件为温度23℃,储层压力13.8 MPa。流动电弧实验表明,低温氧化区在150℃左右发生,而高温氧化区在350℃左右发生着火。然而,当使用封闭电弧时,所研究的油的热行为表现出不同的温度特征,最大自热率发生在288℃。本文还讨论了气相燃烧的影响以及动力学参数的计算。
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