Yahya J. Tawfeeq, Mahmood Al-Mufarji, Qahtan Abdul Aziz
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引用次数: 0
摘要
某些地球物理特征的变化,如声波穿越时间随深度的变化,显示了超压区的压力系统。本研究利用井记录数据调查了伊拉克一个油田三级储层中地层超压的分布情况。本研究关注的是位于一个伊拉克油田三级碳酸盐岩储层内的三口油井。为了评估储油层,进行了岩石物理测井分析。储油层的间隔是研究的重点区域。利用声速数据绘制了一条正常压实趋势线,并通过观察正常压实趋势线的反转来确定超压区。孔隙压力、裂缝压力和梯度采用伊顿法计算。该方法依赖于在正常压实趋势上发现的正常运移时间与测井读数中观察到的运移时间之间的相关性。声波测井记录确定了体积密度,并与密度测井记录得出的密度相匹配。异常压力主要出现在相关区域,尤其是 1 号井的 B 单元。在 2 号井中,异常压力出现在相关区域上方的区域。3 号井的异常压力主要出现在所有相关区域。这项工作的重要性在于有助于在钻井或修井之前预测研究区域的超压区。
Predicating of Formation Pore Pressures in Tertiary Reservoirs Using Geophysical Wireline Log Data
Changes to certain geophysical characteristics, such as sonic transit time with depth, indicate the pressure system of over-pressured zones. In this study, well-log data is used to investigate the distribution of formation overpressures in the tertiary reservoirs of one Iraqi oil field. Three wells located within the tertiary carbonate reservoir of one Iraqi oil field are of interest in this study. To assess the reservoirs, a petrophysics log analysis was carried out. The reservoir's intervals are the area of interest. The sonic velocity data was used to create a normal compaction trend line, and the overpressure zones were identified by observing the reversals in the normal compaction trend line. The pore pressure, fracture pressure, and gradients were calculated using the Eaton method. The method relies on the correlation between the normal transit time found on the normal compaction trend and the observed transit time from the log reading. The sonic log determines the bulk density and matches the density derived from the density log. Abnormal pressures were identified primarily within the area of interest, especially with unit B in Well 1. In Well 2, the abnormal pressures were recognized in zones above the area of interest. Abnormal pressures in Well 3 were identified primarily within all areas of interest. The importance of this work is to help predict overpressure zones in the research area before drilling or workover.
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