An Open Access Carbonate Reservoir Benchmarking Study for Reservoir Characterisation, Uncertainty Quantification & History Matching

Day 1 Tue, September 17, 2019 Pub Date : 2019-09-17 DOI:10.2118/196674-ms

J. Gomes, S. Geiger, D. Arnold

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引用次数: 4

Abstract

This work presents a new open access carbonate reservoir case study that uniquely considers the major uncertainties inherent to carbonate reservoirs using one of the most prolific aggradational parasequence carbonate formation set in the U.A.E; the Late Barremian Upper Kharaib Mb. as an analogue. The ensemble considers a range of interpretational scenarios and geomodelling techniques to capture the main components of its reservoir architectures, stratal geometries, facies, pore systems, diagenetic overprints and wettability variations across its platform-to-basin profile. Fully anonymized data from 43 wells across 22 fields in the Bab Basin, U.A.E from different geo-depositional positions and height above FWL’s (specified to capture multiple structural positions) within an area of 36,000 km2 was used. The data comprises of a full suite of open hole logs and core data which has been anonymized, rescaled, repositioned and structurally deformed; FWL’s were normalized and the entire model was placed in a unique coordinate system. Our petrophysical model captures the geological setting and reservoir heterogeneities of selected fields but now at a manageable scale. The novelty of this work has been to create semi-synthetic open access carbonate reservoir models which enable the geoscience and reservoir engineering community to analyse, study and test number of cases related to new numerical algorithms for reservoir characterisation, reservoir simulation, uncertainty quantification, robust optimization and machine learning. The value of this study is also to expose a model and a dataset to the reservoir simulation engineers so they can explore the impact of different fluid flow physics on sweep and recovery across multiple carbonate reservoir architectures with diverse lateral and vertical rock and fluid complexities – all of which can be history-matched against a ‘truth case’.

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用于储层表征、不确定度量化和历史拟合的开放式碳酸盐岩储层基准研究

这项工作提出了一个新的开放式碳酸盐岩储层案例研究，该研究独特地考虑了碳酸盐岩储层固有的主要不确定性，使用了阿联酋最丰富的沉积准层序碳酸盐岩地层之一;Barremian晚期上哈拉布(Upper Kharaib) mb作为类似物。该系统考虑了一系列的解释方案和地质建模技术，以捕捉其储层结构、地层几何形状、相、孔隙系统、成岩覆层和平台-盆地剖面的润湿性变化的主要组成部分。研究使用了来自阿联酋Bab盆地22个油田的43口井的完全匿名数据，这些数据来自不同的地质沉积位置和FWL以上的高度(指定用于捕获多个构造位置)，面积为36,000平方公里。数据包括全套裸眼测井和岩心数据，这些数据经过了匿名化、重新缩放、重新定位和结构变形处理;将FWL归一化，并将整个模型置于唯一的坐标系中。我们的岩石物理模型捕获了选定油田的地质环境和储层非均质性，但现在规模可控。这项工作的新颖之处在于创建了半合成的开放式碳酸盐岩储层模型，使地球科学和储层工程界能够分析、研究和测试与储层表征、储层模拟、不确定性量化、鲁棒优化和机器学习等新数值算法相关的大量案例。本研究的价值还在于向油藏模拟工程师提供一个模型和数据集，以便他们可以探索不同流体流动物理对具有不同横向和垂直岩石和流体复杂性的多种碳酸盐岩油藏结构的波及和采收率的影响，所有这些都可以与“真实案例”进行历史匹配。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Day 1 Tue, September 17, 2019

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