Improving oil recovery rates in THAI in situ combustion process using pure oxygen

IF 2.6 Q3 ENERGY & FUELS Upstream Oil and Gas Technology Pub Date : 2021-02-01 DOI:10.1016/j.upstre.2021.100032

Muhammad Rabiu Ado

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引用次数: 13

Abstract

In-situ-combustion-type processes such as the Toe-to-Heel Air Injection (THAI) process have been shown to have advantages over other thermal enhanced oil recovery processes. The THAI process uses in situ combustion to mobilise and upgrade bitumen or heavy oil within the reservoir. This study compares the effect of injecting pure oxygen instead of air on the performance of the THAI process. It is found that over the 833 days of the process time, an additional 3.85% of oil originally in place (OOIP) was recovered with injecting pure oxygen compared to with injecting air. It is found that as the combustion front advances, higher axial length fraction of the HP well is used for oil production. Observing the oil production rate distribution along the HP well, it is concluded that highest oil flow rate enters the HP well at the toe in both models. It has been shown that it is likely that gas production might have negatively affected the oil production when air is the injected fluid (i.e. in the air model).

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提高纯氧原位燃烧过程中原油的采收率

与其他热强化采油工艺相比，原位燃烧型工艺(如趾到脚跟空气喷射(THAI)工艺)具有优势。THAI工艺使用原位燃烧来动员和升级储层中的沥青或重油。本研究比较了注入纯氧而不是空气对泰国工艺性能的影响。研究发现，在833天的工艺时间内，与注入空气相比，注入纯氧可额外回收3.85%的原始原地油(OOIP)。研究发现，随着燃烧前缘的推进，高压井的高轴长部分被用于采油。通过对高压井产油速率分布的观察，得出两种模型中进入高压井的最大产油速率均在井趾处。已经证明，当空气是注入流体时(即在空气模型中)，气体产量可能会对石油产量产生负面影响。

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来源期刊

Upstream Oil and Gas Technology

CiteScore

5.50

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0.00%

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