Geological and Seismic Delineation of D2000 and D4000 Petroleum Reservoirs Within Afenmai Field, Niger Delta Basin, Nigeria

Unuevho, C. I.; Onuoha, K. Mosto

doi:10.11648/j.earth.20221103.13

Cited by 2 publications

(1 citation statement)

References 13 publications

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“…This was utilized to establish broad displacement patterns across faults and deformation of fault blocks within the stratigraphic interval. The identification of subsurface units, structural complexity, and faulted rollover anticline in this study aligns with previous works by Doust and Omatsola [6]; Short and Stauble [7]; Unuevho et al [8]; Sanuade et al [9]; Adewoye et al [10]; and Opara et al [11].…”

Section: Structural Interpretationsupporting

confidence: 90%

Volumetric Analysis of Selected Reservoirs in Ogbenu Field, Niger Delta, Nigeria Using 3D Seismic and Well Log Data

Ogidikpe, E. S.,

Anakwuba, E. K.,

Bestman, D. K.

2024

AJEE

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Volumetric analysis of selected reservoirs in the Ogbenu field, Niger Delta, Nigeria was carried out using 3D seismic and well log data. The objectives include the identification and selection of suitable reservoirs, correlating the reservoirs across the field, generating synthetic seismograms and seismic-to-well ties, performing structural interpretation of faults and horizons to generate time and depth structure map, identifying potential prospects and volumetric analysis to estimate the volume of hydrocarbon in place. The adopted methodology comprises structural, petrophysical and volumetric analysis facilitated by Petrel and Techlog software suites. Well log were utilized to identify distinctive features and cross-well stratigraphic correlation which revealed complex variations, indicating a potential thickening trend in the Agbada sequence towards the southwest. Faults and horizons were mapped to establish the structural framework, unveiling a faulted rollover anticline influenced by lateral fault block movements, contributing to a complex structural style. Detailed analysis of seismic responses, synthetic seismograms, and petrophysical parameters from the well log led to the identifying and correlating of eight prospective reservoir intervals (Reservoir A to H). Average petrophysical parameters, including thickness, porosity, Not-to-Gross ratio, volume of shale, and water saturation were derived from the petrophysical analysis, confirming the eight reservoirs exhibit good petrophysical properties, indicating their potential as promising prospects. The reservoirs exhibit varying qualities, with a southward decline in reservoir quality and indications of gas-water contacts in reservoir A with a similar trend across the other reservoir units. The estimated Original Oil in Place volume were. Reservoir A (29,025.57 MMBOE), B (23.95 MMSTB), C (2,776.37 MMBOE), D (48.19 MMSTB), E (16.69 MMSTB), F (131.98 MMSTB), G (42.19 MMSTB) and H (102.60 MMSTB). This integrative approach revealed complex reservoir variations and structural intricacies, enhancing the understanding of future exploration and production strategies in the Ogbenu field.

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Section: Structural Interpretationsupporting

confidence: 90%

Volumetric Analysis of Selected Reservoirs in Ogbenu Field, Niger Delta, Nigeria Using 3D Seismic and Well Log Data

Ogidikpe, E. S.,

Anakwuba, E. K.,

Bestman, D. K.

2024

AJEE

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Petrophysical and Geomechanical Analysis to Delineating Reservoirs in the Miocene Niger Delta Region of Nigeria

Ojo

2023

Geoinformatica Polonica

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The application of various petrophysical and elastic metrics has advanced reservoir characterization and provided critical geological formation information. Porosity declines with depth, according to sonic, neutron, and density logs. Lithology, pressure, and hydrocarbons all contribute to this. Formation resistivity and fluid saturation are used to identify hydrocarbon-bearing zones. Because oil and gas are non-conductive, hydrocarbon-containing rocks are more resistant than water. In lithological categorization, gamma logs and the Vp/Vs ratio have helped classify reservoirs as Agbada Formation sand-shale reservoirs. Reservoir elastic characteristics, specifically sandstones, have been studied at various depths. These discoveries have an impact on their brittleness, strength, and failure risk in a variety of scenarios. Hydrocarbon accumulation has been influenced by diagenetic compaction equilibrium in pressure-exposed shale source beds. The research advances our understanding of the geological formations of the Niger Delta and gives practical insights for exploration and production. Decisions on oil and gas are based on hydrocarbon reservoir assessments at various depths, including porosity, fluid saturation, and lithology. Well logs from Wells B001, B002, and B003 revealed the diverse properties of several Niger Delta reservoirs. These discoveries have benefited hydrocarbon exploration and production decision-making significantly.

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Geological and Seismic Delineation of D2000 and D4000 Petroleum Reservoirs Within Afenmai Field, Niger Delta Basin, Nigeria

Cited by 2 publications

References 13 publications

Volumetric Analysis of Selected Reservoirs in Ogbenu Field, Niger Delta, Nigeria Using 3D Seismic and Well Log Data

Volumetric Analysis of Selected Reservoirs in Ogbenu Field, Niger Delta, Nigeria Using 3D Seismic and Well Log Data

Petrophysical and Geomechanical Analysis to Delineating Reservoirs in the Miocene Niger Delta Region of Nigeria

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