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埋藏压实作用对前陆盆地深部储层的作用过程与改造机制
引用本文:高志勇,崔京钢,冯佳睿,罗忠,黄贤营,李小陪,赵雪松,郭美丽. 埋藏压实作用对前陆盆地深部储层的作用过程与改造机制[J]. 石油学报, 2013, 34(5): 867-876. DOI: 10.7623/syxb201305007
作者姓名:高志勇  崔京钢  冯佳睿  罗忠  黄贤营  李小陪  赵雪松  郭美丽
作者单位:1. 中国石油勘探开发研究院石油地质实验研究中心 北京 100083;2. 提高石油采收率国家重点实验室 北京 100083;3. 中国国土资源经济研究院 河北三河 065201;4. 中国地质大学地球科学与资源学院 北京 100083
基金项目:国家重大科技专项(2011ZX05003-002)与中国石油天然气股份有限公司科学研究与技术开发项目(2011B-0402)资助。
摘    要:针对中西部前陆盆地储层经历了早期长期浅埋、后期快速深埋的特有埋藏方式,开展地质过程约束下的成岩模拟实验,分析埋藏压实作用对库车前陆盆地深部储层的作用过程与改造效果。通过砂岩面孔率、视压实率、减孔率及孔径、喉径等储层物性参数的定量评价,表明埋藏压实作用直接影响储层视压实率、减孔率,同时也控制了不同粒级砂岩储层的孔径与喉径变化。在早期缓慢的浅埋藏阶段,压实作用使粗砂岩、中砂岩等粗碎屑颗粒存在较少的碎裂纹及颗粒位移和重排,细砂岩、粉砂岩等细颗粒呈较杂乱排列。在后期快速埋藏压实阶段,随着埋深增大,压实作用使骨架颗粒趋于定向排列;近源沉积的粗砂岩、中砂岩等碎屑颗粒大量发育裂纹和成岩缝,前渊沉积的粉砂岩不发育颗粒裂纹但存在成岩缝。快速深埋作用下形成的碎屑颗粒裂纹与成岩缝是深部储层发生溶蚀和提高渗透性的主要原因。

关 键 词:前陆盆地  压实作用  埋藏方式  深部储层  定量评价  
收稿时间:2013-03-22
修稿时间:2013-06-09

An effect of burial compaction on deep reservoirs of foreland basins and its reworking mechanism
GAO Zhiyong,CUI Jinggang,FENG Jiarui,LUO Zhong,HUANG Xianying,LI Xiaopei,ZHAO Xuesong,GUO Meili. An effect of burial compaction on deep reservoirs of foreland basins and its reworking mechanism[J]. Acta Petrolei Sinica, 2013, 34(5): 867-876. DOI: 10.7623/syxb201305007
Authors:GAO Zhiyong  CUI Jinggang  FENG Jiarui  LUO Zhong  HUANG Xianying  LI Xiaopei  ZHAO Xuesong  GUO Meili
Affiliation:1. Petroleum Geology Research & Laboratory Center, RIPED, Beijing 100083, China;2. State Key Laboratory of Enhanced Oil Recovery, Beijing 100083, China;3. Chinese Academy of Land & Resource Economics, Sanhe 065201, China;4. School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China
Abstract:The burial history for reservoirs of foreland basins in the central and western China is characterized by long-term shallow burial at the early stage and rapid deep burial at the late stage. Under a geological process constraint, we conducted a series of simulation experiments on diagenesis and analyzed the burial compaction process of deep reservoirs in the Kuqa foreland basin and its reworking effect. By quantitative evaluations of reservoir physical property parameters, such as plane porosity, apparent compaction percentage, porosity reduction rate, pore and neck diameters, a direct effect of burial compaction on the apparent compaction percentage and porosity reduction rate was verified, meanwhile, burial compaction of reservoirs was found to control variations in pore and neck diameters of sandstones with different grain size. At the early slow and shallow burial stage, compaction might result in not only less grain crackles as well as grain displacement and rearrangement in clastic rocks, such as coarse and mesograined sandstones, but also a random grain arrangement of aphanides, such as packsands and siltstones. At the late rapid burial compaction stage, along with increasing burial depth, compaction might lead to an oriented arrangement tendency for skeleton grains, and crackles and diagenetic fractures widely developed in clasitc grains representative of near-source deposition, such as coarse and mesograined sandstones, while siltstones deposited in foredeep belts showed less-developed grain crackles but some diagenetic fractures. Therefore, crackles and diagenetic fractures of clastic grains formed under rapid-deep burial are attributed to a major cause for dissolution occurrence and permeability enhancement of deep reservoirs.
Keywords:foreland basin  compaction  burial pattern  deep reservoir  quantitative evaluation  
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