AVO analysis for high amplitude anomalies using 2D pre-stack seismic data

Abdulkareem, Lamees

doi:10.48129/kjs.12351

KJS publishes peer-review articles in Mathematics, Computer Sci

2022

DOI: 10.48129/kjs.12351

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AVO analysis for high amplitude anomalies using 2D pre-stack seismic data

Lamees Abdulkareem¹

Abstract: Amplitude variation with offset (AVO) analysis is an 1 efficient tool for hydrocarbon detection and identification of elastic rock properties and fluid types. It has been applied in the present study using reprocessed pre-stack 2D seismic data (1992, Caulerpa) from north-west of the Bonaparte Basin, Australia. The AVO response along the 2D pre-stack seismic data in the Laminaria High NW shelf of Australia was also investigated. Three hypotheses were suggested to investigate the AVO behaviour of the amplit… Show more

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2024

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Delineating Plio-Pleistocene channels (gas reservoirs) via seismic attributes in Baltim Gas Field, Nile Delta, Egypt

EL-SAYED,

Mohamed,

Mohsen

2024

Preprint

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The offshore Nile Delta's Baltim gas fields contain extremely substantial gas condensate accumulations. Therefore, defining Pleistocene reservoirs (El-Wastani formation) and Pliocene reservoirs (Kafr El-Sheikh formation) is the primary objective of this research. A variety of data from five wells, such as gamma-ray, density, neutron, sonic, and resistivity wireline logs. These well logs are put together with seismic data, and a synthetic seismogram is used to find the right gas horizon interpretation for both of anomalies. Using seismic attributes while looking the existing seismic data makes it much easier for interpreters to learn more about the existing geological features. This investigation primarily aims to verify the presence of two potential gas anomalies, first is the structural attributes which include by applying seismic attributes in addition to conventional seismic interpretation. Seismic attributes are significant to ensure the two prospective gas anomalies by applying two different types of seismic attributes. First is the structural attributes which include discontinuity and fault likelihood (FLH), which are very important for fault detection. They are also important for examining the gas leakage to determine if the main fault is fully sealed, partially sealed, or non-sealed. The second is stratigraphic attribute, with different types. In this study, three stratigraphic attributes were applied: sweetness, reflection strength, which is a good tool for gas identification as high sweet points and high reflectivity; also, the third type of attribute is spectral decomposition, which is a good type for channel identification and determine of channel fairway as existence in the second Pliocene anomaly, which reflects the best place for drilling development wells. This study area is illustrated through seismic interpretation of 3D re-processed seismic data collected in 2018 and 5 wells data.

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Delineating Plio-Pleistocene channels (gas reservoirs) via seismic attributes in Baltim Gas Field, Nile Delta, Egypt

EL-SAYED,

Mohamed,

Mohsen

2024

Preprint

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AVO analysis for high amplitude anomalies using 2D pre-stack seismic data

Cited by 1 publication

References 6 publications

Delineating Plio-Pleistocene channels (gas reservoirs) via seismic attributes in Baltim Gas Field, Nile Delta, Egypt

Delineating Plio-Pleistocene channels (gas reservoirs) via seismic attributes in Baltim Gas Field, Nile Delta, Egypt

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