利用先进磁共振工具和水力储层单元技术对埃及地中海蓝宝石海上气田上新世砂岩储层进行渗透率预测

Q3 Earth and Planetary Sciences

Iraqi Geological Journal Pub Date : 2024-02-29 DOI:10.46717/igj.57.1b.6ms-2024-2-15

Ahmed Baghdadi, Abdullah El-Sayed, Abdel-Kahlek El-Werr, Ali Farag

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引用次数: 0

摘要

利用磁共振先进测井工具得出的渗透率揭示了上新世砂岩储层的异质性。由于无法获得岩心数据，从测井记录中预测渗透率是一个重要目标。采用水力流动单元法，根据储层岩石的孔隙度-渗透率关系对其进行分类。使用 Sapphire-Dh 磁共振孔隙度和渗透率关系计算每个流动单元的预测渗透率。流动区指标与优质流动单元具有直接的比例关系。为了验证模型，将预测的渗透率与作为参考研究井的 Sapphire-Dh 测量的共振渗透率进行对比，结果显示两者高度匹配。因此，在其他三口既没有岩心样本也没有高级测井测量结果的油井中也应用了该方法。

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Permeability Prediction Using Advanced Magnetic Resonance Tools and Hydraulic Reservoir Units Techniques for the Pliocene Sand Reservoirs, Sapphire Offshore Gas Field, Mediterranean, Egypt

Permeability derived from magnetic resonance advanced logging tools was used to unlock the Pliocene sandstone reservoir heterogeneity. Permeability prediction from well logs is a significant target due to the unavailability of core data. The hydraulic flow unit approach is used to classify the reservoir rocks according to their porosity-permeability relationship. The predicted permeability is calculated using Sapphire-Dh magnetic resonance porosity and permeability relationship for each flow unit. Flow Zone Indicator and the quality flow unit have a direct proportion relationship. For the model's verification, the predicted permeability is plotted against the measured resonance permeability in Sapphire-Dh as a reference studied well, showing highly matching results. Accordingly, the applied approach is implemented in the other three wells, which have neither core samples nor advanced logs measurements.

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