西南石油大学学报(自然科学版)

• 地质勘探 • 上一篇    下一篇

高邮凹陷南断阶沉积成岩对储层产能控制评价

钟思瑛1 *,丁圣2   

  1. 1. 中国石化江苏油田勘探开发研究院,江苏扬州225009
    2. 中国石化江苏油田采油二厂,江苏淮安211600
  • 出版日期:2016-02-01 发布日期:2016-02-01
  • 通讯作者: 钟思瑛,E-mail:zhongsy.jsyt@sinopec.com

Control of Sedimentary Diagenesis on Reservoir Production Capacity#br# Evaluation in South Fault Terrace of Gaoyou Sag

ZHONG Siying1*, DING Sheng2   

  1. 1. Exploration and Development Research Institute,Jiangsu Oilfield,SINOPEC,YangZhou,Jiangsu 225009,China
    2 Second Production Plant,Jiangsu Oilfield,SINOPEC,Huai′ an,Jiangsu 211600,China
  • Online:2016-02-01 Published:2016-02-01

摘要:

影响低渗透储层产能的因素众多而复杂,因此,正确分析和评价这些因素对于低渗透储层开发有重要的指导
意义。排除工程因素影响,从地质因素考虑,重点分析和评价沉积与成岩作用对产能的影响,并利用恒速压汞和核磁
共振特殊实验数据对其机理进行剖析。研究表明,高邮凹陷南断阶储层产能主要受后期成岩作用控制,局部小范围
内,成岩环境相同的受沉积作用控制,究其机理,南断阶储层主要受压实、胶结、溶蚀等成岩作用形成不同的微观孔隙
结构,导致南断阶储层产能显著的差异性。

关键词: 高邮凹陷, 沉积微相, 成岩相, 微观孔隙结构, 产能

Abstract:

Factors affecting low permeability reservoir productivity are numerous and complex,so the correct analysis and
evaluation of these factors,for low permeability reservoir development have important significance. This article excludes
engineering factors,from geological considerations,focuses on the analysis and evaluation of sedimentary and diagenetic
effects on productivity,and analysis of its mechanism taking advantage of special data such as constant-pressure mercury and
NMR. Research indicates that:the storage layer production capacity are mainly controlled by later diagenesis in Sag Gaoyou
South broken bands,and controlled by sedimentation in local small scale and the same diagenetic environments,to study its
mechanism,reservoir is mainly affected by diagenesis such as compaction,cementation,corrosion in South fault terrace of
Gaoyou Sag,to form a variety of micro-pore structure,led to significant differences of reservoir production capacity in South
fault terrace of Gaoyou Sag,so diagenetic facies studies for evaluation of low permeability reservoir productivity forecast is
significant.

Key words: Gaoyou Sag, sedimentary microfacies, diagenetic facies, microscopic pore structure, productivity

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