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Hydrocarbon prospective study using seismic inversion and rock physics in an offshore field, Niger Delta

Authors :
Ayodele O. Falade
John O. Amigun
Olubola Abiola
Source :
Discover Geoscience, Vol 2, Iss 1, Pp 1-21 (2024)
Publication Year :
2024
Publisher :
Springer, 2024.

Abstract

Abstract This study integrates seismic inversion and rock physics techniques to evaluate the hydrocarbon potential of an offshore field in the Niger Delta. Five wells revealed three reservoir sands with favourable reservoir properties, including gross thickness (49.2–81.4 m), porosity (0.18–0.2), permeability (565–1481 mD), and water saturation (0.16–0.54). A robust wavelet extraction process was implemented to guide seismic inversion, and a well log-centric approach was employed to validate the resulting acoustic impedance data. Rock physics analysis established correlations between acoustic impedance (Zp), porosity, fluid content, and lithology, enabling the identification of hydrocarbon-filled sands, brine-saturated sands, and shales. These relationships enabled the discrimination of hydrocarbon-filled sands [5000–8000 (m/s)(g/cc)], from brine-saturated sands [5600–8400 (m/s)(g/cc)], and shales [5000–9000 (m/s)(g/cc)] within the inverted seismic data. The inverted acoustic impedance section showed a general increase with depth, reflecting the typical compaction effects in the Niger Delta. Analysis of the impedance distribution across horizon time slices revealed prospective zones with low impedance values [below 6300 (m/s)(g/cc)], particularly in horizons 1 and 2. These newly identified zones exhibit the strongest potential for hydrocarbon accumulation and warrant further investigation. This study demonstrates the effectiveness of using well log and rock physics constrained seismic inversion for hydrocarbon exploration in an offshore field in the Niger Delta.

Details

Language :
English
ISSN :
29481589
Volume :
2
Issue :
1
Database :
Directory of Open Access Journals
Journal :
Discover Geoscience
Publication Type :
Academic Journal
Accession number :
edsdoj.84aecc37f3449c5b18d8040057f50f8
Document Type :
article
Full Text :
https://doi.org/10.1007/s44288-024-00030-4