Correlating Stochastically Distributed Reservoir Heterogeneities with Steam-Assisted Gravity Drainage Production

Cui Wang, Zhiwei Ma, J. Leung, S. Zanon
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引用次数: 14

Abstract

Application of big data analytics in reservoir engineering has gained wide attention in recent years. However, designing practical data-driven models for correlating petrophysical measurements and Steam-Assisted Gravity Drainage (SAGD) production profiles using actual field data remains difficult. Parameterization of the complex reservoir heterogeneities in these reservoirs is not trivial. In this study, a set of attributes pertinent to characterizing stochastic distributions of shales and lean zones is formulated and used for correlating against a number of production performance measures. A comprehensive investigation of the heterogeneous distribution (continuity, size, proportions, permeability, location, orientation and saturation) of shale barriers and lean zones is presented. First, a series of two-dimensional SAGD models based on typical Athabasca oil reservoir properties and operating conditions are constructed. Geostatistical techniques are applied to stochastically model shale barriers, which are imbedded in a region of degraded rock properties referred to as Low-Quality Sand or LQS, among a background of clean sand. Parameters including correlation lengths, orientation, proportions and permeability anisotropy of the different rock facies are varied. Within each facies, spatial variations in water saturation are modeled probabilistically. In contrast to many previous simulation studies, representative multiphase flow functions and capillarity models are assigned in accordance to individual facies. A set of input attributes based on facies proportions and dimensionless correlation lengths are formulated. Next, to facilitate the assessment of different scenarios, production performance is quantified by numerous dimensionless output attributes defined from recovery factor and steam-to-oil ratio profiles. An additional dimensionless indicator is implemented to capture the production time during which the instantaneous steam-to-oil ratio has exceeded a particular economic threshold. Finally, results of the sensitivity analysis are employed as training and testing datasets in a series of neural network models to correlate the pertinent system attributes and the production performance measures. These models are also used to assess the consequences of ignoring lateral variation of heterogeneities when extracting petrophysical (log) data from vertical delineation wells alone. An important contribution of this work is that it proposes a set of input attributes for correlating reservoir heterogeneity introduced by shale barriers and lean zones to SAGD production performance. It demonstrates that these input attributes, which can be extracted from petrophysical logs, are highly correlated with the ensuing recovery response and heat loss. This work also exemplifies the feasibility and utility of data-driven models in correlating SAGD performance. Furthermore, the proposed set of system variables and modeling approach can be applied directly in field-data analysis and scale-up study of experimental models to assist field-operation design and evaluation.
随机分布油藏非均质性与蒸汽辅助重力排采的关系
近年来,大数据分析在油藏工程中的应用受到了广泛关注。然而,设计实用的数据驱动模型,将岩石物理测量和蒸汽辅助重力泄油(SAGD)生产剖面与实际现场数据相关联,仍然很困难。这些油藏复杂储层非均质性的参数化绝非易事。在这项研究中,制定了一组与表征页岩和贫层随机分布相关的属性,并将其用于与一系列生产性能指标相关联。全面研究了页岩屏障和贫岩带的非均质分布(连续性、大小、比例、渗透率、位置、方位和饱和度)。首先,建立了一系列基于Athabasca典型油藏性质和作业条件的二维SAGD模型;地质统计学技术应用于随机模拟页岩屏障,这些屏障嵌入在被称为低质量砂或LQS的退化岩石属性区域中,背景是干净的砂。不同岩相的相关长度、取向、比例、渗透率各向异性等参数均不相同。在每个相中,对含水饱和度的空间变化进行了概率模拟。与以往的许多模拟研究不同,本文根据不同的相划分了具有代表性的多相流函数和毛细管模型。建立了一套基于相比例和无量纲关联长度的输入属性。接下来,为了便于对不同情况进行评估,通过采收率和汽油比曲线定义的无数无量纲输出属性来量化生产性能。采用了一个额外的无量纲指标来捕捉瞬时汽油比超过特定经济阈值的生产时间。最后,将灵敏度分析结果作为一系列神经网络模型的训练和测试数据集,将相关系统属性与生产性能指标关联起来。这些模型还用于评估在单独从垂直圈定井中提取岩石物理(测井)数据时忽略非均质性横向变化的后果。这项工作的一个重要贡献是,它提出了一组输入属性,用于将页岩屏障和贫层引入的储层非均质性与SAGD生产性能相关联。这表明,这些可以从岩石物理测井中提取的输入属性与随后的采收率响应和热损失高度相关。这项工作还举例说明了数据驱动模型在关联SAGD性能方面的可行性和实用性。此外,所提出的系统变量集和建模方法可直接应用于现场数据分析和实验模型的放大研究,以辅助现场操作设计和评估。
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