The effect of capillary-trapped CO_2 on oil recovery and CO_2 sequestration during the WAG process

Kim Joohyung; Lee Myungjae; Lee Yeonkyeong; Lee Youngsoo; Sung Wonmo

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The effect of capillary-trapped CO_2 on oil recovery and CO_2 sequestration during the WAG process

机译：WAG过程中毛细管捕集的CO_2对油采收和CO_2固存的影响

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This study investigated capillary-trapped CO2 depending on the consideration of hysteresis effect in relative permeability for various water-alternation-gas (WAG) operating conditions to ascertain the oil production process. From the simulation results of CO2 WAG flooding method, the trapped CO2 led to prevent water-flow, in which CO2 acts as a gas blocker near the well. It caused the injection pressure increase during water injection period. As the trapped CO2 in pores increased, the reservoir pressure was also increased and maintained above minimum miscibility pressure (MMP). Ultimately, it was concluded that the reservoir was kept under miscible conditions throughout WAG process, reducing residual oil and increasing oil recovery.

机译：这项研究根据各种水交替气（WAG）操作条件下相对渗透率的磁滞效应来研究毛细捕集的CO2，以确定产油过程。根据CO2 WAG驱油方法的模拟结果，捕获的CO2导致阻止水流，其中CO2在井附近起阻气作用。这导致注水期间注水压力增加。随着孔隙中捕获的CO2增加，储层压力也增加并保持在最小混溶压力（MMP）以上。最终得出的结论是，在整个WAG过程中，油藏一直处于混溶条件下，减少了残留油并提高了采油率。

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来源
《Energy Sources》 |2018年第18期|2137-2143|共7页
作者
Kim Joohyung; Lee Myungjae; Lee Yeonkyeong; Lee Youngsoo; Sung Wonmo;
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作者单位

Hanyang Univ, Dept Earth Resources & Environm Engn, Seoul 133791, South Korea;

EY Han Young, Seoul, South Korea;

Hanyang Univ, Dept Earth Resources & Environm Engn, Seoul 133791, South Korea;

Chonbuk Natl Univ, Dept Mineral Resources & Energy Engn, Jeonju, South Korea;

Hanyang Univ, Dept Earth Resources & Environm Engn, Seoul 133791, South Korea;

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正文语种 eng
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关键词
Capillary trapping; CO2 sequestration; hysteresis; oil recovery; WAG;

机译：毛细管捕集;CO 2隔离;磁滞;回油;WAG;

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The effect of capillary-trapped CO_2 on oil recovery and CO_2 sequestration during the WAG process

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