Tight Reservoir: Characterization, Modeling, and Development Feasibility

A. Salahuddin, Jamila M. Al Seiari, Abdulla S. Al Shehhi, K. Hammadi
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引用次数: 1

Abstract

The distribution of reservoir quality in tight carbonates depends primarily upon how diagenetic processes have modified the rock microstructure, leading to significant heterogeneity and anisotropy. The size and connectivity of the pore network may be enhanced by dissolution or reduced by cementation and compaction. Consequently, a clear understanding of the diagenetic process that responsible for the reservoir tightness would offer vital assurance on the spatial property distribution and future field development plan. In this paper, we have examined the factors which affect the distribution of porosity, permeability and reservoir quality in the Thamama Group, which is a prospective low permeability carbonate reservoir rock in Onshore Abu Dhabi. The dataset includes regional stratigraphy, well logs and core material from a number of wells, a suite of laboratory petrophysical measurements, seismic attributes, geomechanics, fracture study, and production history. Dataset analysis and interpretation suggested that the reservoir was deposited in shallow to deep marine low energy environment which led to deposition of fine to very fine grains (lime-mud supported) types of sediments. This, in turn, would produce poor reservoirs during compaction and finally leads to tightness. Because of the low permeability nature of this tight reservoir, it is quite challenging to obtain their complete reservoir properties and dynamic behavior. As in many other tight reservoir projects, a considerable area of the reservoir must be effectively stimulated during the hydraulic fracturing process to achieve economic productivity. In addition, development of tight reservoirs often faces challenges, for example, low initial production rates and high declining rate. This paper aims to frame all possible optimum development practices for tight reservoir in the studied field that should be considered for future development plan. We also investigated the application of new technology to enhance the poor oil recovery within the pool including horizontal drilling and multi-stage fracture completion technology. Furthermore, this paper also discusses well orientation relative to the far field principal stresses, hydraulic fractures treatment, fracture fluid selection, and nano-technology application. This, in turn, would provide valuable information on how to optimally develop this previously considered marginal and uneconomic reservoir.
致密储层:表征、建模和开发可行性
致密碳酸盐岩储层质量的分布主要取决于成岩作用如何改变岩石微观结构,从而导致显著的非均质性和各向异性。溶蚀作用可增大孔隙网络的大小和连通性,胶结作用和压实作用可减小孔隙网络的大小和连通性。因此,清楚地了解导致储层致密性的成岩过程将为空间性质分布和未来的油田开发计划提供重要保证。本文研究了阿布扎比陆上低渗透碳酸盐岩储层Thamama组储层孔隙度、渗透率及储层质量分布的影响因素。该数据集包括区域地层学、多口井的测井和岩心材料、一套实验室岩石物理测量数据、地震属性、地质力学、裂缝研究和生产历史。数据分析和解释表明,该储层沉积于浅海至深海低能环境,形成细颗粒至极细颗粒(灰泥支撑)型沉积物。这反过来又会在压实过程中产生较差的储层,最终导致致密。由于该致密储层的低渗透性质,获得其完整的储层性质和动态特性是非常具有挑战性的。与许多其他致密储层项目一样,在水力压裂过程中,必须对相当大的储层面积进行有效改造,以实现经济产能。此外,致密储层的开发往往面临初始产量低、递减率高等挑战。本文旨在构建研究区致密储层所有可能的最佳开发实践,为今后的开发规划提供参考。我们还研究了水平井钻井和多级压裂完井技术等新技术在提高油藏低采收率方面的应用。此外,本文还讨论了相对于远场主应力的井眼定向、水力压裂处理、压裂液选择以及纳米技术的应用。反过来,这将为如何优化开发这个以前被认为是边缘和不经济的油藏提供有价值的信息。
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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