复杂碳酸盐岩油藏开发生产与地层压力综合分析

Day 4 Thu, March 21, 2019 Pub Date : 2019-03-15 DOI:10.2118/195032-MS

O. Matar, Ahmad Al Janahi, E.A.E. Ali

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引用次数: 1

摘要

对于油藏结构复杂的成熟油田，油藏监测是跟踪油藏动态的关键。油藏监测可能包括各种监测工具，从复杂的水平生产测井工具到常规的试井。主要的监测方法之一是使用地层压力测量工具，如地层压力测试仪(FPT)或业内已知的重复地层测试仪(RFT)。本文介绍了将这一重要工具与生产数据结合使用，以了解油藏生产和枯竭行为，从而支持巴林油田的开发计划。对介形虫和马古瓦储层进行了研究;巴林油田复杂的碳酸盐岩储层介形虫带是中白垩统瓦西亚群鲁迈拉组上段的层间灰岩和页岩层序。它的厚度超过200英尺，由三个主要单元组成:B0、B1和B2。马古瓦储层为鲁迈拉组下段。它有120英尺厚，整合在介形虫储层之下。它由三个主要单位组成:M1、M2和M3。本研究的主要目的是:从两个储层中每个单元的初始储层压力来评估压力损耗，从而确定层间复杂碳酸盐岩中是否存在流动障碍。评估每个单元的压力损耗与邻井与FPT位置之间的间距之间的关系。评估每单位Ostracod/Magwa压力损耗随时间的变化。将压力损耗与FPT数据抵消区域的累积产量联系起来。该研究的结果有助于确定此类复杂储层未来充注机会的枯竭风险。它还有助于定位高度枯竭的单元，并确定新填充井的最佳位置。

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Integrating Production and Formation Pressure Testers Analysis for Field Development in Complicated Carbonate Reservoir

For mature oil fields with complicated reservoir architecture, reservoir surveillance is key to track reservoir performance. Reservoir surveillance may include various monitoring tools from complicated horizontal production logging tools down to regular well tests. One of the main surveillance methods is running formation pressure measurement tools such as Formation Pressure Testers (FPT) or as historically known to the industry, Repeated Formation Tester (RFT). This paper describes the use of this important tool integrated with production data to understand reservoir production and depletion behavior and hence support the Bahrain Field development plan. A study was conducted on the Ostracod and Magwa reservoirs; complicated carbonate reservoirs in the Bahrain Field. The Ostracod Zone is a sequence of inter-bedded limestone and shale in the upper Rumaila formation of the middle Cretaceous Wasia group. It is over 200 feet thick and consists of three main units: B0, B1, and B2. The Magwa reservoir is the lower member of the Rumaila Formation. It is 120 feet thick and conformably underlies the Ostracod reservoir. It consists of three main units: M1, M2, and M3. The main objectives of this study are: Evaluating pressure depletion from the initial reservoir pressure for each unit in both reservoirs, which defined the existence of flow barriers in this inter-bedded complicated carbonate. Evaluating the relationship between pressure depletion in each unit and the spacing between offset wells to the FPT location. Evaluating the Ostracod/Magwa pressure depletion per unit with time. Linking the pressure depletion to the cumulative production from the area offset by the FPT data. The results of this study helped define the depletion risk on the future infill opportunities in such complicated reservoirs. It also helped in locating highly depleted units and determining the optimal locations for the new infill wells.

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Day 4 Thu, March 21, 2019

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