Integrating Seismic And Petrophysical Log Data In Reservoir Studies In "Famito" Oil Field, Onshore Niger Delta, Nigeria

ABSTRACT

Reservoir characterization has taken prominence in hydrocarbon exploration due to its role in

proper understanding of the reservoir properties such as lithofacies, and petrophysical

parameters, to enhance success in the quantification of the hydrocarbon reserve in place thereby

diminishing exploration failures and enhancing successes. This research work is aimed at

integrating three-dimensional seismic data and petrophysical log data to characterize reservoirs

of interest, map structures, delineate facies and interpret the various depositional environments in

“FAMITO” field of Niger Delta. Mapping and interpretation of faults and horizons/reservoir tops

were carried out across the seismic volume. Field-wide and intra-reservoir correlation (North-

South direction), aided by gamma ray log, were carried out across the field of study. Three

reservoir tops of interest (F-1000, G-1000, and H-1000 reservoirs), were delineated and

correlated. Facies interpretations using the integration of biostratigraphic and well log data

showed that the reservoirs have shoreface and channel sands. The environments of deposition

encountered, spans from fluvial through shallow marine. Time structural maps generated from

these tops were depth converted using the velocity model. Studies reveal hydrocarbon closures

and prospects bounded by faults which constitute the main trapping mechanism across the study

area. Petrophysical analysis shows that the average porosity and water saturation values for F-

1000 reservoir is 0.2401 and 0.3866, G-1000 reservoir is 0.2527 and 0.4549, and that of H-1000

reservoir is 0.2436 and 0.2838 respectively. These values indicate that the identified prospective

zones have good porosity and water saturation. Seismic attribute maps (root mean square (rms),

maximum amplitude and average energy) generated from the time structural maps show the

presence of hydrocarbon accumulation. Hence, this work has shown that integrated studies are

critical in characterization of reservoirs in the onshore Niger Delta.