节点文献
碳酸盐岩礁滩油气储层地震预测方法探讨
RESEARCH ON THE METHODOLOGY OF CARBONATE REEF-SHOAL RESERVOIR DESCRIPTION BY 3D SEISMIC DATA
【摘要】 储层结构和孔隙流体预测是目前碳酸盐岩礁滩油气储层地震预测的重点和难点。这里从流体敏感性参数的选择和基于储层结构模拟的孔隙度预测二方面,研究了碳酸盐岩礁滩油气储层的流体识别问题。其中,基于测井资料统计分析和/或岩石物理岩样测试的参数交会图的制作,是优选烃类敏感参数的基础。在单一敏感参数的基础上,构组复合型的流体识别因子,能获得更好的流体识别效果。储层孔隙度预测是这样实现的:首先,对Gassman流体替换方程通过引入近似关系βp-sβ≈pβ进行简化;然后引入Eshelby-Walsh储层结构参数以获得直接计算孔隙度的表达式;最后,根据弹性反演得到的纵波、横波阻抗(或纵波、横波速度)等参数,计算得到孔隙度及孔隙流体预测剖面。经实际地震资料的流体预测结果显示,新方法比常规方法预测的精度高。
【Abstract】 Predictions of reservoir pore-composition and pore-fluid on carbonate reef-shoal formation by using seismic data are very important and difficult.The problems of reservoir pore-composition and pore-fluid predictions can be solved partially by both optimal selection of hydrocarbon-sensitive parameters and an improved seismic porosity inversion.The hydrocarbon-sensitive parameter selection can be implemented through crossplot of elastic parameters and fluid factors which are constructed by compositing several reservoir parameters from well log data and/or petrophysics data.The calculations of improved seismic porosity inversion are divided in three steps:(1) simplification of Gassman-equation by βp-βs≈βp;(2) substituting Eshelby-Walsh pore-composition parameters into Gassman-equation;(3) implementing seismic porosity inversion using new equations above.Field data examples show that the improved porosity inversion is better than traditional ones.
【Key words】 reef-shoal reservoir; fluid prediction; seismic porosity inversion; pore composition;
- 【文献出处】 物探化探计算技术 ,Computing Techniques for Geophysical and Geochemical Exploration , 编辑部邮箱 ,2011年01期
- 【分类号】P618.13
- 【被引频次】9
- 【下载频次】331