Multiples in Onshore Niger Delta from 3D prestack seismic data

Field ‘K’ is a mature field in the coastal swamp onshore Niger delta, which has been producing since 1960. As a huge producing field with some potential for further sustainable production, field monitoring is therefore important in the identification of areas of unproduced hydrocarbon. This can be achieved by comparing production data with the corresponding changes in acoustic impedance observed in the maps generated from base survey (initial 3D seismic) and monitor seismic survey (4D seismic) across the field. This will enable the 4D seismic data set to be used for mapping reservoir details such as advancing water front and un-swept zones. The availability of good quality onshore time-lapse seismic data for Field ‘K’ acquired in 1987 and 2002 provided the opportunity to evaluate the effect of changes in reservoir fluid saturations on time-lapse amplitudes. Rock physics modelling and fluid substitution studies on well logs were carried out, and acoustic impedance change in the reservoir was estimated to be in the range of 0.25% to about 8%. Changes in reservoir fluid saturations were confirmed with time-lapse amplitudes within the crest area of the reservoir structure where reservoir porosity is 0.25%. In this paper, we demonstrated the use of repeat Seismic to delineate swept zones and areas hit with water override in a producing onshore reservoir.

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Facies Analysis and Depositoinal Environment of D-3 Reservoir Sands Vin Field, Eastern Niger Delta

Journal of Geography Environment and Earth Science International ◽

10.9734/jgeesi/2019/v19i230080 ◽

2019 ◽

pp. 1-19

Author(s):

Onyewuchi, Chinedu Vin ◽

Minapuye, I. Odigi

Keyword(s):

Seismic Data ◽

Niger Delta ◽

Depositional Environment ◽

Gamma Ray ◽

Facies Analysis ◽

Depositional Environments ◽

Width Ratio ◽

Neutron Density ◽

Wireline Logs ◽

Isopach Map

Facies analysis and depositional environment identification of the Vin field was evaluated through the integration and comparison of results from wireline logs, core analysis, seismic data, ditch cutting samples and petrophysical parameters. Well log suites from 22 wells comprising gamma ray, resistivity, neutron, density, seismic data, and ditch cutting samples were obtained and analyzed. Prediction of depositional environment was made through the usage of wireline log shapes of facies combined with result from cores and ditch cuttings sample description. The aims of this study were to identify the facies and depositional environments of the D-3 reservoir sand in the Vin field. Two sets of correlations were made on the E-W trend to validate the reservoir top and base while the isopach map was used to establish the reservoir continuity. Facies analysis was carried out to identify the various depositional environments. The result showed that the reservoir is an elongate , four way dip closed roll over anticline associated with an E-W trending growth fault and contains two structural high separated by a saddle. The offshore bar unit is an elongate sand body with length: width ratio of >3:1 and is aligned parallel to the coast-line. Analysis of the gamma ray logs indicated that four log facies were recognized in all the wells used for the study. These include: Funnel-shaped (coarsening upward sequences), bell-shaped or fining upward sequences, the bow shape and irregular shape. Based on these categories of facies, the depositional environments were interpreted as deltaic distributaries, regressive barrier bars, reworked offshore bars and shallow marine. Analysis of the wireline logs and their core/ditch cuttings description has led to the conclusion that the reservoir sandstones of the Agbada Formation in the Vin field of the eastern Niger Delta is predominantly marine deltaic sequence, strongly influenced by clastic output from the Niger Delta. Deposition occurred in a variety of littoral and neritic environment ranging from barrier sand complex to fully marine outer shelf mudstones.

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Characterization of reservoir sands using 3D seismic attributes in the coastal swamp area of Niger Delta Basin

Journal of Petroleum Exploration and Production Technology ◽

10.1007/s13202-021-01286-z ◽

2021 ◽

Author(s):

Oluwatoyin Khadijat Olaleye ◽

Pius Adekunle Enikanselu ◽

Michael Ayuk Ayuk

Keyword(s):

Seismic Data ◽

Niger Delta ◽

Seismic Attributes ◽

Effective Porosity ◽

High Porosity ◽

Hydrocarbon Accumulation ◽

3D Seismic ◽

Seismic Attribute ◽

Niger Delta Basin

AbstractHydrocarbon accumulation and production within the Niger Delta Basin are controlled by varieties of geologic features guided by the depositional environment and tectonic history across the basin. In this study, multiple seismic attribute transforms were applied to three-dimensional (3D) seismic data obtained from “Reigh” Field, Onshore Niger Delta to delineate and characterize geologic features capable of harboring hydrocarbon and identifying hydrocarbon productivity areas within the field. Two (2) sand units were delineated from borehole log data and their corresponding horizons were mapped on seismic data, using appropriate check-shot data of the boreholes. Petrophysical summary of the sand units revealed that the area is characterized by high sand/shale ratio, effective porosity ranged from 16 to 36% and hydrocarbon saturation between 72 and 92%. By extracting attribute maps of coherence, instantaneous frequency, instantaneous amplitude and RMS amplitude, characterization of the sand units in terms of reservoir geomorphological features, facies distribution and hydrocarbon potential was achieved. Seismic attribute results revealed (1) characteristic patterns of varying frequency and amplitude areas, (2) major control of hydrocarbon accumulation being structural, in terms of fault, (3) prospective stratigraphic pinch-out, lenticular thick hydrocarbon sand, mounded sand deposit and barrier bar deposit. Seismic Attributes analysis together with seismic structural interpretation revealed prospective structurally high zones with high sand percentage, moderate thickness and high porosity anomaly at the center of the field. The integration of different seismic attribute transforms and results from the study has improved our understanding of mapped sand units and enhanced the delineation of drillable locations which are not recognized on conventional seismic interpretations.

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Integration of Well Logs and Seismic Data for Prospects Evaluation of an X Field, Onshore Niger Delta, Nigeria

International Journal of Geosciences ◽

10.4236/ijg.2012.324088 ◽

2012 ◽

Vol 03 (04) ◽

pp. 872-877 ◽

Cited By ~ 2

Author(s):

Godwin Emujakporue ◽

Cyril Nwankwo ◽

Leonard Nwosu

Keyword(s):

Seismic Data ◽

Niger Delta ◽

Well Logs

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Analysis of Gravity-Flow Depositional Systems From 3-D Seismic Data: Neogene Deposits of the Niger Delta Slope

Advanced Reservoir Characterization for the 21st Century: 19th Annual ◽

10.5724/gcs.99.14.0003 ◽

1999 ◽

pp. 3-20

Author(s):

John M. Armentrout ◽

Katherine A. Kanschat ◽

Kristian E. Meisling ◽

Jerome J. Tsakma ◽

Lisa Antrim ◽

...

Keyword(s):

Seismic Data ◽

Niger Delta ◽

Gravity Flow ◽

Depositional Systems ◽

Delta Slope

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Evaluation of seismic attributes for reservoir characterization over Edi field, Niger delta, Nigeria using 3d seismic data

International Journal of Advanced Geosciences ◽

10.14419/ijag.v8i2.31043 ◽

2020 ◽

Vol 8 (2) ◽

pp. 168

Author(s):

Nyeneime O. Etuk ◽

Mfoniso U. Aka ◽

Okechukwu A. Agbasi ◽

Johnson C. Ibuot

Keyword(s):

Seismic Data ◽

Niger Delta ◽

Reservoir Characterization ◽

Seismic Attributes ◽

3D Seismic ◽

Root Mean Square Amplitude ◽

Phase Gradient ◽

Major Fault ◽

Seismic Sections ◽

3D Seismic Data

Seismic attributes were evaluated over Edi field, offshore Western Niger Delta, Nigeria, via 3D seismic data. Manual mappings of the horizons and faults on the in-lines and cross-lines of the seismic sections were done. Various attributes were calculated and out put on four horizons corresponding to the well markers at different formations within the well were identified. The four horizons identified, which includes: H1, H2, H3 and H4 were mapped and interpreted across the field. The operational agenda was thru picking given faults segments on the in–line of seismic volume. A total of five faults coded as F1, F2, F3, F4 and F5, F1 and F5 were the major fault and were observed as extending through the field. Structural and horizon mappings were used to generate time structure maps. The maps showed the various positions and orientations of the faults. Different attributes which include: root mean square amplitude, instantaneous phase, gradient magnitude and chaos were run on the 3D seismic data. The amplitude and incline magnitude maps indicate direct hydrocarbon on the horizon maps; this is very important in the drilling of wells because it shows areas where hydrocarbons are present in the subsurface. The seismic attributes revealed information, which was not readily apparent in the raw seismic data.

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GROUND ROLL NOISE ATTENUATION IN 3D LAND SEISMIC DATA IN PARTS OF NIGER DELTA, NIGERIA

Geological Behavior ◽

10.26480/gbr.01.2021.04.06 ◽

2020 ◽

Vol 5 (1) ◽

pp. 04-06

Author(s):

Bridget L. Lawrence ◽

Etim D. Uko ◽

Chibuogwu L. Eze ◽

Chicozie Israel-Cookey ◽

Iyeneomie Tamunobereton-ari ◽

...

Keyword(s):

Seismic Data ◽

Niger Delta ◽

Noise Suppression ◽

Seismic Source ◽

Signal Amplitude ◽

Average Frequency ◽

Frequency Offset ◽

Receiver Design ◽

Coherent Noise ◽

Ground Roll

Three-dimensional (3D) land seismic datasets were acquired from Central Depobelt in the Niger Delta region, Nigeria, with with the aim of attenuating ground roll noise from the dataset. The Omega (Schlumberger) software 2018 version was used along with frequency offset coherent noise suppression (FXCNS) and Anomalous Amplitude Attenuation (AAA) algorithms for ground roll attenuation. From the results obtained, Frequency Offset Coherent Noise Suppression (FXCNS) attenuates ground roll while AAA algorithm attenuates the residual high amplitude noise from the seismic data. Average frequency of the ground roll in the seismic data is 10.50Hz which falls within the actual range of ground roll frequency which is within the range of 3.00 – 18.00Hz. The average velocity of the ground roll in the seismic data is 477.36ms-1 while the velocity of ground roll ranges between 347.44 and 677.37ms-1. The wavelength of ground roll in the seismic data is 50.28m. The amplitude of the ground roll of -6.24dB is maximum at 4.2Hz. Frequency of signal ranges between 10.21 and 25.12Hz with an average of 17.67Hz. Signal amplitude of -8.32dB is maximum at 6.30Hz, while its wavelength is 57.12m. The results of this work can be used in the seismic source-receiver design for application in the area of study. Moreover, with ground roll noise attenuated, a better image of the subsurface geology is obtained hence reducing the risk of obtaining a wild cat drilling.

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Preliminary structural evaluation of an X-Field Onshore Niger Delta using 3D seismic data

International Journal of the Physical Sciences ◽

10.5897/ijps2016.4508 ◽

2016 ◽

Vol 11 (12) ◽

pp. 149-156 ◽

Cited By ~ 1

Author(s):

N Ehirim C ◽

A E Abbey M

Keyword(s):

Seismic Data ◽

Niger Delta ◽

3D Seismic ◽

Structural Evaluation ◽

3D Seismic Data

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