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| 超压对碎屑岩机械压实作用的抑制与孔隙度预测 | |
| 引用本文: | 肖丽华,高煜婷,田伟志,姜文亚,王又春,郭日鑫,赵小庆,梁宏伟. 超压对碎屑岩机械压实作用的抑制与孔隙度预测[J]. 矿物岩石地球化学通报, 2011, 30(4): 400-406 |
| 作者姓名: | 肖丽华 高煜婷 田伟志 姜文亚 王又春 郭日鑫 赵小庆 梁宏伟 |
| 作者单位: | 1. 东北石油大学,大庆,163318 2. 中国石油大港油田勘探开发研究中心,天津,300280 3. 中国石油大庆油田有限责任公司采油三厂,大庆,163113 4. 中国石油大学,北京,102249 |
| 基金项目: | 国家自然基金项目资助项目(40872076) |
| 摘 要: | 为了研究超压对碎屑岩储层机械压实作用的抑制作用和预测超压背景下碎屑岩储层的孔隙度,本文根据压力平衡原理,推导了地层超压与有效埋深的关系方程,并在综合考虑超压、溶蚀和胶结作用的基础上,建立了超压背景下储层孔隙度的预测模型。结果表明,盆地中地层的密度越小,超压对碎屑岩储层机械压实的抑制效果越明显。三个不同时代、不同类型沉积盆地的孔隙度预测结果表明,应用本文建立的储层孔隙度预测模型所预测储层孔隙度的误差均低于Gluyas和Cade方程,而且孔隙度预测的误差随地层时代的变老而增大。在储层胶结物小于10%的条件下,新生代超压盆地碎屑岩储层孔隙度的预测误差小于2%,而中生代超压盆地储层孔隙度的预测误差大于5%。本文建立的超压背景下的碎屑岩储层孔隙度预测模型仅适用于时代较新超压盆地的孔隙度预测。 |
| 关 键 词: | 超压 成岩作用 机械压实 孔隙度预测 Gluyas和Cade方程 |
The Retardation of Mechanical Compaction in Clastic Rocks by Overpressure and the Prediction Model for Porosity |
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| XIAO Li-hua,GAO Yu-ting,TIAN Wei-zhi,JIANG Wen-ya,WANG You-chun,GUO Ri-xin,ZHAO Xiao-qing,LIANG Hong-we. The Retardation of Mechanical Compaction in Clastic Rocks by Overpressure and the Prediction Model for Porosity[J]. Bulletin of Mineralogy Petrology and Geochemistry, 2011, 30(4): 400-406 | |
| Authors: | XIAO Li-hua GAO Yu-ting TIAN Wei-zhi JIANG Wen-ya WANG You-chun GUO Ri-xin ZHAO Xiao-qing LIANG Hong-we |
| Affiliation: | XIAO Li-hua1,GAO Yu-ting1,TIAN Wei-zhi1,JIANG Wen-ya2,WANG You-chun1,GUO Ri-xin3,ZHAO Xiao-qing4,LIANG Hong-wei4 1.Northeast Petroleum University,Heilongjiang,Daqing 163318,China,2.Scientific and Technical Information Division,Petro China Dagang Oilfield Company,Tianjin 300280,3.No.3 Petroleum Production Subcompany,Daqing Oil Field Company Ltd.PetroChina,Daqing,Daqing 163113,4.China Petroleum University,Beijing 102249 |
| Abstract: | In order to study the retardation of mechanical compaction in clastic rocks by overpressure and to predict the porosity of the clastic reservoir in overpressure formation,the relationship equation of overpressure and effective burial depth was deduced using the pressure balance principle.A new model of reservoir porosity prediction in overpressure formation was developed considering the combined effects of overpressure,dissolution and cementation.The model indicated that the smaller of the formation density... |
| Keywords: | overpressure diagenesis mechanical compaction porosity prediction Gluyas and Cade s Formula |
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