Fluid prediction using AVO analysis and forward modelling of deep reservoirs in Faith Field, Niger Delta, Nigeria

dc.contributor.authorAdeoti, L
dc.contributor.authorAdeleye, K.O
dc.contributor.authorItsemode, A
dc.contributor.authorBello, M.A
dc.date.accessioned2019-09-20T15:21:26Z
dc.date.available2019-09-20T15:21:26Z
dc.date.issued2015
dc.description.abstractAmplitude versus offset AVO analysis and forward modelling were used to predict the fluid type and seismic signature in a deep gas reservoir in faith field, Niger Delta. Well A, which identified the major deeper gas bearing reservoir in this field, was used in the modelling to predict what the seismic response would be away from this well at varying thickness and porosity ranges. The entire well was blocked into alternate layers of sand and shale lithotypes; the sands were fluid substituted from its initial in situ condition to 100 % brine saturation, and from the brine case, fluid substituted to 100 % oil and 100 % gas saturations. The elastic properties of these fluid substituted sands were estimated using the Gassmann equations and Batzle and Wang. The results were used in AVO analysis. Seismic forward modelling to determine the seismic wiggle signatures of these sands were also conducted. The variations of pertinent rock properties with depth of burial were also investigated. The results show that sand alpha (interval 10,400–10,650 ft) exhibited a typical class 3 AVO signature. Seismic wiggle response from top of this sand shows a distinct negative trough on the near angle stack and a much larger trough on the far stack. Sand beta (interval 11,700–12,050 ft) exhibited a typical class 2n AVO signature. Sand wedge model response shows increasing amplitudes from tops and bases of these sands as a function of thickness with the limits of seismic resolution shown by the tuning thickness. The gradient-stack plots, Hiltermann’s acoustic impedance (HAI) versus Poisson’s ratio (PR) plots and the AVO models suggest that the hydrocarbon-bearing sands will be distinguishable from sands with 100 % brine saturations. There is significant overlap between oil and gas plots because the oil was modelled as having a high gas oil ratio (GOR) of 3,586. The reservoirs at this level in Faith Field are either condensate or gas bearing. Seismic direct hydrocarbon indicator (DHI) and lithologic delineation are better defined in the shallower sand alpha than the deeper sand beta. These models have shown that any good quality seismic acquired over this prospect would be useful in deriving reservoir properties from seismic (RPFS) for these reservoirs and would be effective in lithologic differentiation or hydrocarbon identification.en_US
dc.identifier.citationItsemode, A., & Bello, M. A. Lukumon Adeoti, Kolade O. Adeleye (2015). Fluid prediction using AVO analysis and forward modelling of deep reservoirs in Faith Field, Niger Delta, Nigeria. Arabian Journal of Geosciences, 8, 4057–4074en_US
dc.identifier.urihttps://ir.unilag.edu.ng/handle/123456789/5930
dc.language.isoenen_US
dc.publisherArabian Journal of Geosciencesen_US
dc.subjectAVO analysisen_US
dc.subjectForward modellingen_US
dc.subjectSand alphaen_US
dc.subjectSand betaen_US
dc.titleFluid prediction using AVO analysis and forward modelling of deep reservoirs in Faith Field, Niger Delta, Nigeriaen_US
dc.typeArticleen_US
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