Reservoir Quality of the Miocene Formation Gas Deposits, Onshore Abu Dhabi

C. Breislin, L. Galluccio, Kate Al Tameemi, Riaz Khan, A. Abdelaal
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Abstract

Understanding reservoir architecture is key to comprehend the distribution of reservoir quality when evaluating a field's prospectivity. Renewed interest in the tight, gas-rich Middle Miocene anhydrite intervals (Anh-1, Anh-2, Anh-3, Anh-4 and Anh-6) by ADNOC has given new impetus to improving its reservoir characterisation. In this context, this study provides valuable new insights in geological knowledge at the field scale within a formation with limited existing studies. From a sedimentological point of view, the anhydrite layers of the Miocene Formation, Anh-1, Anh-2, Anh-3, Anh-4 and Anh-6 (which comprise three stacked sequences: Bur1, Bur2 and Bur3; Hardenbol et al., 1998), have comparable depositional organisation throughout the study area. Bur1 and Bur2 are characterised by an upward transition from intertidal-dominated deposits to low-energy inner ramp-dominated sedimentation displaying reasonably consistent thickness across the area. Bur3 deposits imply an initial upward deepening from an argillaceous intertidal-dominated to an argillaceous subtidal-dominated setting, followed by an upward shallowing into intertidal and supratidal sabkha-dominated environments. This Bur3 cycle thickens towards the south-east due to a possible deepening, resulting in the subtle increase in thickness of the subtidal and intertidal deposits occurring around the maximum-flooding surface. The interbedded relationship between the thin limestone and anhydrite layers within the intertidal and proximal inner ramp deposits impart strong permeability anisotropy, with the anhydrite acting as significant baffles to vertical fluid flow. A qualitative reservoir quality analysis, combining core sedimentology data from 10 wells, 331 CCA data points, 58 thin-sections and 10 SEM samples has identified that reservoir layers Anh-4 and Anh-6 contain the best porosity and permeability values, with the carbonate facies of the argillaceous-prone intertidal and distal inner ramp deposits hosting the best reservoir potential. Within these facies, the pore systems within the carbonate facies are impacted by varying degrees of dolomitisation and dissolution which enhance the pore system, and cementation (anhydrite and calcite), which degrade the pore system. The combination of these diagenetic phases results in the wide spread of porosity and permeability data observed. The integration of both the sedimentological features and diagenetic overprint of the Middle Miocene anhydrite intervals shows the fundamental role played by the depositional environment in its reservoir architecture. This study has revealed the carbonate-dominated depositional environment groups within the anhydrite stratigraphic layers likely host both the best storage capacity and flow potential. Within these carbonate-dominated layers, the thicker, homogenous carbonate deposits would be more conducive to vertical and lateral flow than thinner interbedded carbonates and anhydrites, which may present as baffles or barriers to vertical flow and create significant permeability anisotropy.
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阿布扎比陆上中新世组气藏储层质量
在评价油田远景时,了解储层构型是了解储层质量分布的关键。ADNOC对中中新世致密、富气硬泥岩层段(Anh-1、Anh-2、Anh-3、Anh-4和Anh-6)的重新关注,为改善其储层特征提供了新的动力。在此背景下,该研究在现有研究有限的情况下,为地层的野外地质知识提供了有价值的新见解。从沉积学角度看,中新世组Anh-1、Anh-2、Anh-3、Anh-4和Anh-6(由Bur1、Bur2和Bur3三个叠置层序组成;Hardenbol et al., 1998)在整个研究区域都有类似的沉积组织。Bur1和Bur2的特征是由潮间带为主的沉积向上过渡到低能量的内斜坡为主的沉积,整个地区的厚度相当一致。Bur3沉积预示着从泥质潮间带为主到泥质潮下带为主的初始向上深化,随后向上浅化进入潮间带和潮上沙布哈为主的环境。由于可能加深,这个Bur3旋回向东南方向变厚,导致最大洪水面周围的潮下和潮间沉积物的厚度略有增加。潮间带和近端内斜坡沉积中薄灰岩与硬石膏层的互层关系赋予了较强的渗透率各向异性,硬石膏对垂向流体流动起着重要的阻碍作用。通过对10口井的岩心沉积学数据、331个CCA数据点、58个薄片和10个SEM样品进行定性储层质量分析,确定了安四层和安六层储层具有最佳的孔隙度和渗透率值,其中倾向泥质潮间带和远端内斜坡沉积的碳酸盐相具有最佳的储层潜力。在这些相中,碳酸盐相的孔隙系统受到不同程度的白云化作用和溶蚀作用的影响,这些作用增强了孔隙系统,而胶结作用(硬石膏和方解石)则降低了孔隙系统。这些成岩相的组合导致观察到的孔隙度和渗透率数据分布广泛。中中新世硬石膏层段的沉积学特征和成岩覆层综合反映了沉积环境对储层构型的根本影响。研究表明,硬石膏地层中以碳酸盐岩为主的沉积环境群可能具有最佳的储集能力和流动潜力。在这些以碳酸盐为主的地层中,较厚的均质碳酸盐沉积物比较薄的互层碳酸盐和硬石膏更有利于垂直和横向流动,这可能成为垂直流动的障碍或障碍,并产生显著的渗透率各向异性。
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