层序地层学与地质统计学的整合:构建复杂碳酸盐岩储层模型的整体方法

A. Salahuddin, K. Khan, R. A. Ali, K. Hammadi
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引用次数: 1

摘要

本文介绍了在高分辨率层序地层学框架下复杂碳酸盐岩储层岩相及物性分布随机建模的新方法。本文讨论的碳酸盐岩岩相具有非均质孔隙类型和性质。储层表现出广泛的地质和岩石物理性质,这使得有效开采碳氢化合物成为一项具有挑战性的任务。因此,提高采收率的关键步骤之一是以精细地胞静态模型的形式定义储层中的三维变化模式。必须明确的关键静态地质要素是HRSS框架、岩相结构和野外岩石性质。地下分析通过检查超过15口井的600英尺岩心、50多口井的常规测井和350多个薄片来完成。储层段平均35英尺,可细分为6个高频层序。储层由泻湖包岩-泥质岩、富粒鲕粒浅滩和泥质-泥质-边界岩中斜坡组成。浅滩沉积的渗透率和含油饱和度最好,为不连续岩相体,局部具有较好的孔隙度和渗透率特征。岩相几何和性质研究必须为储层HRSS框架和岩相结构变异性的表征和建模奠定基础。结合电缆测井资料,为确定储层格架和岩石属性分布提供了依据。复杂的岩相几何形状和岩相转换,无论在垂直上还是横向上,都存在于土丘和不连续的富粒鲕滩岩相之间,以及连续序贯的泻湖岩相和中斜坡岩相之间,这使得用单一岩相模型算法无法模拟这类岩相组合。因此,实施了一种新的整体办法。采用基于目标(Object Based, OB)算法和截断高斯模拟(Truncated Gaussian Simulation, TGS)算法相结合的方法处理复杂岩相过渡。这可以生成多个真实的全油田范围内的岩相分布和关系,与数据趋势、附近油田的地下模拟以及露头暴露相一致。然后利用HRSS格架内建立的岩相分布来约束整个油田的性质以及储层的成岩趋势和分布。这种新的整体方法最近在研究领域得到了成功的实施。所建立的地质统计模型能够解释该油田历史生产数据所显示的压力损耗和产量。由此产生的动态模型将提供可靠的产量预测和油藏开发计划,最终实现指定的采收率目标。
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Sequence Stratigraphy and Geostatistical Realizations Integration: A Holistic Approach in Constructing a Complex Carbonate Reservoir Model
This paper described the novel approach for stochastically modeling complex carbonate reservoir lithofacies and properties distribution within a High Resolution Sequence Stratigraphy (HRSS) framework. The carbonate lithofacies discussed in this paper contains heterogeneous pore types and properties. The reservoir displays an extensive range of geologic and petrophysical properties that make the efficient recovery of hydrocarbons is a challenging task. Hence one of the key steps in improving the recovery factor is by defining the three dimensional variability patterns in the reservoir in the form of fine geocellular static model. The key static geological elements that must be well defined are HRSS framework, lithofacies architecture, and field wide rock properties. Subsurface analysis was done by examining 600 feet core footage from more than 15 wells, conventional logs from more than 50 wells, and more than 350 thin sections. The reservoir section averages 35 feet that can be subdivided into 6 high-frequency sequences. The reservoir consists of lagoonal packstone-rudstone, grain rich ooid-peloid shoal, and rudstone-boundstone mid-ramp. The shoal deposits exhibit the best permeability and oil saturation and it consists of discontinuous lithofacies body that depicts locally excellent porosity and permeability characteristics. Lithofacies geometry and properties studies must form a fundamental basis for characterizing and modeling HRSS framework and lithofacies architecture variability through the reservoir. Combined with wireline-log data, they provide a basis for defining both reservoir framework and rock attribute distributions. Complex lithofacies geometries and transitions, both vertically and laterally between the mound and discontinuous grain-rich ooid-peloid shoal lithofacies together with the continuous and sequential lagoonal and mid-ramp lithofacies does not allow to simulate these sorts of lithofacies assemblage using single lithofacies model algorithm. Hence a new holistic approach was implemented. A combination of Object Based (OB) algorithm and Truncated Gaussian Simulation (TGS) algorithm was employed to handle the complex lithofacies transition. This enables generating multiple realistic field wide lithofacies distribution and relationship which aligns with data trend, subsurface analog in the nearby fields, as well as that is from the outcrop exposure. The established lithofacies distribution within HRSS framework was then used to constrain field-wide properties and diagenetic trend and distribution in the reservoir. This new holistic approach has recently been successfully implemented in the studied field. The resulted geostatistical model was able to explain pressure depletion and production rate as shown in historical production data of the field. The resulting dynamic model will hence provide reliable production forecast and reservoirs development plan which will eventually allow accomplishing the mandate recovery target.
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