伊拉克West Qurna/1油田Mishrif地层层段岩相、沉积和斜形特征的详细岩心数据、核磁共振测井和模块化地层动力学测试

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS
Ahmed N. Al-Dujaili, M. Shabani, M. Al-Jawad
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引用次数: 2

摘要

本研究考虑了Mishrif地质的复杂性及其对Mishrif储层内和储层间流体运动的影响。为此,分析了高渗对比的多段连通、上Mishrif (mA)段的地质背景、下Mishrif- 1段(mB1)段的河道结构、下Mishrif- 2段(mB2U)上部的高渗薄层、下Mishrif- 2段下部的微孔段(mB2L);在这项工作之前,它们都没有得到很好的定义。Mishrif - Rumaila (mC)下部以微孔为主,最佳储层位于中等质量层的上部。在mC单元中系统地发现了两个高孔隙度层,通常被称为“兔耳”。西Qurna/1油田(WQ1)最北端的mB2L含颗粒岩。在mB2L南部,一些远端沉积环境下的斜形岩趾组已发展成为相当重要的垂向压力屏障和垂向流动屏障。mB2U一般由带有细条纹的泥岩高流层(HFLs)的粒岩组成,下面的岩石通常被描述为粒岩浅滩。在mB2U中,大约80%的储油(STOOIP)存在于颗粒岩中。目前还没有发现微孔储层。mB1和mA之间的边界压差可以是正的,也可以是负的。在底部,mB1通道始终与下面的mB2U保持压力通信。来自mA的最佳流量来自于断层周围的高通量流。米什里夫上段(mAa) mA段储层质量总体上最好,mA段的大部分STOOIP存在于微孔岩中,约30%的STOOIP存在于颗粒岩中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lithofacies, Deposition, and Clinoforms Characterization Using Detailed Core Data, Nuclear Magnetic Resonance Logs, and Modular Formation Dynamics Tests for Mishrif Formation Intervals in West Qurna/1 Oil Field, Iraq
This study considered the complexity of Mishrif geology and its effect on fluid movement within and across Mishrif reservoir intervals. For this purpose, we analyzed the following items: the multiple interval communication with high permeability contrast, the geological setting of the upper Mishrif (mA) interval, the channel structure in the Lower Mishrif-Part 1 (mB1) interval, the thin layers in the upper part of Lower Mishrif-Part 2 (mB2U) of very high permeability, and the microporous interval of the lower part of Lower Mishrif-Part 2 (mB2L); none of them were well defined before this work. The bottom interval of Mishrif or Rumaila (mC) is predominantly microporous, and the best reservoir is at the top of intermediate quality. Two high-porosity layers are systematically found in the mC unit, which is casually referred to as “rabbit ears.” The mB2L contains grainstones in the far north of the West Qurna/1 oil field (WQ1). In the south of mB2L, some of the toe sets from the clinoforms in a distal depositional setting have developed into rather important vertical pressure baffles and barriers to vertical flow. The mB2U generally consists of grainstones with thin streaks of mudstone high flow layers (HFLs), and the rocks underneath are described generally as grainstone shoals. About 80% of stock tank oil originally in place (STOOIP) in mB2U exists in grainstones. There are no known microporous reservoirs in mB2U. The pressure difference across the boundaries between mB1 and mA can be positive or negative. At the base, mB1 channels are always in pressure communication with the mB2U below. The best flow from the mA comes from HFLs, which are found around faults. Reservoir quality within mA is generally best in the first section of the upper Mishrif (mAa), and the majority of STOOIP in mA exists in microporous rocks, while some 30% of STOOIP is contained in grainstones.
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来源期刊
CiteScore
5.30
自引率
0.00%
发文量
68
审稿时长
12 months
期刊介绍: Covers the application of a wide range of topics, including reservoir characterization, geology and geophysics, core analysis, well logging, well testing, reservoir management, enhanced oil recovery, fluid mechanics, performance prediction, reservoir simulation, digital energy, uncertainty/risk assessment, information management, resource and reserve evaluation, portfolio/asset management, project valuation, and petroleum economics.
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