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泥页岩埋藏过程孔隙度演化与预测模型探讨
引用本文:郭秋麟,陈晓明,宋焕琪,郑曼,黄金亮,陈宁生,高日丽. 泥页岩埋藏过程孔隙度演化与预测模型探讨[J]. 天然气地球科学, 2013, 24(3): 439-449. DOI: 10.11764/j.issn.1672-1926.2013.03.439
作者姓名:郭秋麟  陈晓明  宋焕琪  郑曼  黄金亮  陈宁生  高日丽
作者单位:1.中国石油勘探开发研究院,北京 100083;2.中国石油大学 北京,北京 102249
基金项目:国家重大科技专项"岩性地层区带、圈闭评价与储层预测技术研究"课题,中国石油勘探开发研究院创新课题"泥页岩、致密砂岩孔隙演化与油气成藏数值模拟",中国石油重大科技专项"中国石油第四次油气资源评价"
摘    要:统计分析了国内外大量实测及测井解释孔隙度数据,揭示泥页岩孔隙度演化规律,指出孔隙度变化过程的差异,划分出正常压实和欠压实孔隙演化区。从3个方面探讨了引起孔隙度差异的原因:①处于生油高峰期的优质烃源岩,生烃过程中产生的超压减缓了孔隙度变小的速率,是泥页岩在中深层还保持相对较大孔隙度的主要因素,超压贡献的孔隙度超过5%;②处于生气中晚期的优质烃源岩,生烃过程形成的有机质纳米孔隙是深层富含有机质泥页岩孔隙度增加的另一个重要因素,有机质纳米孔贡献泥页岩孔隙度达到1.8%;③有机酸对脆性矿物的溶蚀作用对泥页岩孔隙增大贡献比预想的小。根据以上认识,建立了3段式的正常压实模型、欠压实模型以及有机质纳米孔校正模型,分析了模型关键参数,提出了有机质面孔率的估算模板。应用实例证明这些模型具有实用价值,可促进页岩气、页岩油等非常规油气资源评价及勘探开发技术的发展。

关 键 词:页岩孔隙  压实  超压  有机质纳米孔  页岩气  页岩油  埋藏史  
收稿时间:2013-02-18

Evolution and Models of Shale Porosity During Burial Process
GUO Qiu-lin,CHENG Xiao-ming,SONG Huan-qi,ZHENG Man,HUANG Jin-liang,CHENG Ning-sheng,GAO Ri-li. Evolution and Models of Shale Porosity During Burial Process[J]. Natural Gas Geoscience, 2013, 24(3): 439-449. DOI: 10.11764/j.issn.1672-1926.2013.03.439
Authors:GUO Qiu-lin  CHENG Xiao-ming  SONG Huan-qi  ZHENG Man  HUANG Jin-liang  CHENG Ning-sheng  GAO Ri-li
Affiliation:1.Research Institute of Petroleum Exploration and Development, PetroChina, Beijing 100083, China; 2.China University of Petroleum, Beijing 102249, China
Abstract:Through the analyses of shale porosity data from core test and logging interpretation,this paper demonstrates the shale porosity evolution trend and points out the difference of porosity evolution between normal compaction and under-compaction.Three reasons which caused difference in porosity evolution are discussed:(1)For the high quality shale during oil generation peak,the over-pressure which was generated during hydrocarbon generation slows down porosity decline rate,which is the main factor explaining why shale remains relatively high porosity at middle-deep depth.Over 5% of porosity increment was contributed by over-pressure.(2)For the high quality shale during middle-late gas generation period,nano-pores originated in hydrocarbon generation processes is another important factor causing the increment of porosity in organic-rich shale,which contributes 1.8% in average to the porosity evolution in shale.(3)The organic acid dissolution affects less to shale porosity increment.Based on the conclusions above,we have built three-stage normal compaction model,under-compaction model and nano-pore originating in organic matter correction model,analyzed the key parameters of the model and proposed a template for estimation of the face pore ratio in organic matter.
Keywords:Shale porosity  Compaction  Overpressure  Nano-pore originating in organic matter  Shale gas  Shale oil  Burial history
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