Nourhan Ahmed Al-Ashqar, Abdel-Khalek El-Werr, Ahmad Sobhy Helaly, Azza Kamel
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引用次数: 0
摘要
在埃及尼罗河三角洲的South Abu El Naga气田,储层隔层是一个主要的不确定因素。本研究的目的是利用不同的叠前反演技术,如AVO反射率属性、阻抗方法和λ -mu-rho (LMR)分析,来探测Abu Madi天然气砂岩储层。利用这三种技术对研究区墨西尼亚砂岩气藏进行了有效表征。测井、2D部分角度叠加和全角度叠加地震剖面是可用的数据集,可用于推导地震叠前反演属性。这些属性表明,含气砂体与页岩分离明显,并在切割充泥通道中检测出含气通道的侧向边缘。这些发现确定了AVO反射率属性和阻抗方法在增强地球物理解释、减少不确定性、帮助勘探和在数据有限的情况下支持更准确的隔层圈定方面的实用性,并为面临类似勘探和挑战的其他地区提供了一个方便的工作流程。
AVO reflectivity and pre-stack seismic impedance inversion for gas sand channel detection at South Abu El Naga Field, Onshore Nile Delta, Egypt.
The reservoir compartment is a major uncertainty at South Abu El Naga gas field, onshore Nile Delta, Egypt. The objective of this study is to detect Abu Madi gas sand reservoir using different pre-stack inversion techniques such as AVO reflectivity attributes, impedance methods, and lambda-mu-rho (LMR) analysis. The Messinian sandstone gas reservoir at the study area was effectively characterized using these three techniques. Well logs, 2D partial angle stack, and full angle stack seismic sections are the available dataset used to derive several seismic pre-stack inversion attributes. The results of these attributes show that the gas sand bodies are clearly separated from shale and detect the gas channel lateral edges from the cutting mud filled channel. These findings determine the utility of integrating AVO reflectivity attributes and impedance methods in enhancing geophysical interpretation, reducing uncertainty, aiding exploration and support more accurate compartment delineation in data-limited settings and provide a convenient workflow applicable to other areas facing similar exploration and challenges.
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