碳酸盐岩储层co2水-气交替注入循环模型优化

F. Pereira, V. Botechia, D. Schiozer
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引用次数: 3

摘要

盐下储层是近几十年来最重要的发现之一,因为其中蕴藏着大量的石油。然而,由于其大量的天然气/二氧化碳产量存在很大的不确定性,因此需要更复杂的天然气/二氧化碳管理,包括使用交替注入水和天然气/二氧化碳(WAG)作为一种采收率机制来提高油田的采收率。这项工作的目的是开发一种方法来管理WAG/CO2的循环大小,并分析在此过程中与生产井管理相关的其他变量的影响。将该方法应用于具有盐下特征的基准合成油藏模型。我们使用了五种方法来评估所研究的最佳循环规模,并评估了生产井管理的影响:(A)不因气油比(GOR)限制而关闭生产商;(B)所有井的GOR限值固定在一个固定值(1600 m³/m³);(C)单井优化后的GOR极限;(D)生产者GOR极限值与WAG循环的联合优化;(E)以优化的GOR极限优化每口注入井的循环大小。结果表明,最优周期规模取决于生产者的管理。将所有生产井开到油田生命周期结束(不根据GOR限值关闭)或以更严格的方式控制井(根据GOR限值关闭),会导致结果的显著变化(WAG/CO2循环的最佳尺寸)。因此,我们的研究表明,最佳周期大小取决于其他控制变量,并可能因这些变量而发生显著变化。本研究旨在通过优化生命周期控制变量来管理WAG-CO2注入周期的规模,从而在已经建立的前提下获得更好的经济效益,例如所产生的气体/CO2的总回注,同时分析其他变量(生产井的管理)与WAG-CO2循环的影响。
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MODEL-BASED OPTIMIZATION OF CYCLES OF CO2 WATER-ALTERNATING-GAS (CO2-WAG) INJECTION IN CARBONATE RESERVOIR
Pre-salt reservoirs are among the most important discoveries in recent decades due to the large quantities of oil in them. However, high levels of uncertainties related to its large gas/CO2 production prompt a more complex gas/CO2 management, including the use of alternating water and gas/CO2 injection (WAG) as a recovery mechanism to increase oil recovery from the field. The purpose of this work is to develop a methodology to manage cycle sizes of the WAG/CO2, and analyze the impact of other variables related to the management of producing wells during the process. The methodology was applied to a benchmark synthetic reservoir model with pre-salt characteristics. We used five approaches to evaluate the optimum cycle size under study, also assessing the impact of the management of producing wells: (A) without closing producers due to gas-oil ratio (GOR) limit; (B) GOR limit fixed at a fixed value (1600 m³/m³) for all wells; (C) GOR limit optimized per well; (D) joint optimization between GOR limit values of producers and WAG cycles; and (E) optimization of the cycle size per injector well with an optimized GOR limit. The results showed that the optimum cycle size depends on the management of the producers. Leaving all production wells open until the end of the field's life (without closing based on the GOR limit) or controlling the wells in a more restricted manner (with closing based on the GOR limit), led to significant variation of the results (optimal size of the WAG/CO2 cycles). Our study, therefore, demonstrates that the optimum cycle size depends on other control variables and can change significantly due to these variables. This work presents a study that aimed to manage the WAG-CO2 injection cycle size by optimizing the life cycle control variables to obtain better economic performance within the premises already established, such as the total reinjection of gas/CO2 produced, also analyzing the impact of other variables (management of producing wells) along with the WAG-CO2 cycles.
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