Improving the Geological Understanding of the Niger Delta Basin of Nigeria Using Airborne Gravity Data

Eke P O; Okeke F N; Ezema P O

doi:10.18488/journal.10/2016.5.5/10.5.97.103

Study on Elliptic Filters in Airborne Gravity Data Processing

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.341-342.999 ◽

2013 ◽

Vol 341-342 ◽

pp. 999-1004

Author(s):

Wei Zhou ◽

Ti Jing Cai

Keyword(s):

Data Processing ◽

Gravity Data ◽

Airborne Gravity ◽

Optimal Parameters ◽

Evaluation Indicator ◽

Filter Order ◽

Upper Limit ◽

Optimal Value ◽

Low Pass ◽

Stopband Attenuation

For low-pass filtering of airborne gravity data processing, elliptic low-pass digital filters were designed and filtering influences of the elliptic filter order, upper limit passband frequency, maximal passband attenuation and minimal stopband attenuation were studied. The results show that the upper limit passband frequency has the greatest effect on filtering among four parameters; the filter order and the maximal passband attenuation have some influence, but instability will increase with larger order; the effect of the minimal stopband attenuation is not obvious when reaching a certain value, which requires a combination of evaluation indicator accuracy to determine the optimal value. The standard deviations of discrepancies between the elliptic filtered gravity anomaly with optimal parameters and the commercial software result are within 1mGal, and the internal accord accuracy along four survey lines after level adjusting is about 0.620mGal.

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Lithofacies Analysis and Qualitative Minerology of the Sediments of #3 Well in the Greater Ughelli Depobelt, Niger Delta Basin

Journal of Scientific Research ◽

10.3329/jsr.v13i2.49948 ◽

2021 ◽

Vol 13 (2) ◽

pp. 601-610

Author(s):

K. Itiowe ◽

R. Oghonyon ◽

B. K. Kurah

Keyword(s):

Physical Properties ◽

Clay Minerals ◽

Niger Delta ◽

Reservoir Quality ◽

X Ray Diffraction ◽

X Ray ◽

Sandy Shale ◽

Heterogeneous Nature ◽

Niger Delta Basin ◽

Shaly Sandstone

The sediment of #3 Well of the Greater Ughelli Depobelt are represented by sand and shale intercalation. In this study, lithofacies analysis and X-ray diffraction technique were used to characterize the sediments from the well. The lithofacies analysis was based on the physical properties of the sediments encountered from the ditch cuttings. Five lithofacies types of mainly sandstone, clayey sandstone, shaly sandstone, sandy shale and shale and 53 lithofacies zones were identified from 15 ft to 11295 ft. The result of the X-ray diffraction analysis identified that the following clay minerals – kaolinite, illite/muscovite, sepiolite, chlorite, calcite, dolomite; with kaolinite in greater percentage. The non-clay minerals include quartz, pyrite, anatase, gypsum, plagioclase, microcline, jarosite, barite and fluorite; with quartz having the highest percentage. Therefore, due to the high percentage of kaolinite in #3 well, the pore filing kaolinite may have more effect on the reservoir quality than illite/muscovite, chlorite and sepiolite. By considering the physical properties, homogenous and heterogeneous nature of the #3 Well, it would be concluded that #3 Well has some prospect for petroleum and gas exploration.

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Sedimentary facies and petrographic analyses of Miocene nearshore deposits, Central Swamp Depobelt, onshore Niger Delta Basin: implications for reservoir quality

Journal of Sedimentary Environments ◽

10.1007/s43217-021-00076-1 ◽

2021 ◽

Author(s):

Joseph Nanaoweikule Eradiri ◽

Ehimare Erhire Odafen ◽

Ikenna Christopher Okwara ◽

Ayonma Wilfred Mode ◽

Okwudiri Aloysius Anyiam ◽

...

Keyword(s):

Niger Delta ◽

Sedimentary Facies ◽

Reservoir Quality ◽

Petrographic Analyses ◽

Niger Delta Basin

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Evaluation of Reservoir’s Petrophysical Parameters, Niger Delta, Nigeria

International Journal of Advanced Geosciences ◽

10.14419/ijag.v5i1.7456 ◽

2017 ◽

Vol 5 (1) ◽

pp. 19

Author(s):

Ubong Essien ◽

Akaninyene Akankpo ◽

Okechukwu Agbasi

Keyword(s):

Niger Delta ◽

Gamma Ray ◽

Water Saturation ◽

Petrophysical Parameters ◽

Niger Delta Region ◽

Average Porosity ◽

Irreducible Water Saturation ◽

Open Hole ◽

Bulk Volume ◽

Niger Delta Basin

Petrophysical analysis was performed in two wells in the Niger Delta Region, Nigeria. This study is aimed at making available petrophysical data, basically water saturation calculation using cementation values of 2.0 for the reservoir formations of two wells in the Niger delta basin. A suite of geophysical open hole logs namely Gamma ray; Resistivity, Sonic, Caliper and Density were used to determine petrophysical parameters. The parameters determined are; volume of shale, porosity, water saturation, irreducible water saturation and bulk volume of water. The thickness of the reservoir varies between 127ft and 1620ft. Average porosity values vary between 0.061 and 0.600; generally decreasing with depth. The mean average computed values for the Petrophysical parameters for the reservoirs are: Bulk Volume of Water, 0.070 to 0.175; Apparent Water Resistivity, 0.239 to 7.969; Water Saturation, 0.229 to 0.749; Irreducible Water Saturation, 0.229 to 0.882 and Volume of Shale, 0.045 to 0.355. The findings will also enhance the proper characterization of the reservoir sands.

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Source rock analysis of the Agbada shales of Niger Delta basin, Nigeria, using well log data and attribute analysis

10.1190/segam2014-0969.1 ◽

2014 ◽

Author(s):

Adeniji Ahmad Adeola* ◽

Onayemi John Ramon

Keyword(s):

Source Rock ◽

Niger Delta ◽

Well Log ◽

Log Data ◽

Attribute Analysis ◽

Niger Delta Basin ◽

Rock Analysis

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The Characteristics and Distribution Pattern of Seafloor Sinuous Pockmark Train in the Niger Delta Basin, West Africa

Acta Geologica Sinica - English Edition ◽

10.1111/1755-6724.12751 ◽

2016 ◽

Vol 90 (3) ◽

pp. 1057-1058 ◽

Cited By ~ 1

Author(s):

JIANG Li ◽

WU Shenghe ◽

HU Guangyi ◽

ZHANG Jiajia

Keyword(s):

West Africa ◽

Distribution Pattern ◽

Niger Delta ◽

Niger Delta Basin

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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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Airborne gravity measurements over mountainous areas by using a LaCoste & Romberg air‐sea gravity meter

Geophysics ◽

10.1190/1.1484525 ◽

2002 ◽

Vol 67 (3) ◽

pp. 807-816 ◽

Cited By ~ 8

Author(s):

Jérôme Verdun ◽

Roger Bayer ◽

Emile E. Klingelé ◽

Marc Cocard ◽

Alain Geiger ◽

...

Keyword(s):

Data Reduction ◽

Classical Method ◽

Gravity Data ◽

Airborne Gravity ◽

Mountainous Area ◽

Vertical Acceleration ◽

Mountainous Areas ◽

Free Air ◽

Gravity Measurements ◽

Free Air Anomaly

This paper introduces a new approach to airborne gravity data reduction well‐suited for surveys flown at high altitude with respect to gravity sources (mountainous areas). Classical technique is reviewed and illustrated in taking advantage of airborne gravity measurements performed over the western French Alps by using a LaCoste & Romberg air‐sea gravity meter. The part of nongravitational vertical accelerations correlated with gravity meter measurements are investigated with the help of coherence spectra. Beam velocity has proved to be strikingly correlated with vertical acceleration of the aircraft. This finding is theoretically argued by solving the equation of the gravimetric system (gravity meter and stabilized platform). The transfer function of the system is derived, and a new formulation of airborne gravity data reduction, which takes care of the sensitive response of spring tension to observable gravity field wavelengths, is given. The resulting gravity signal exhibits a residual noise caused by electronic devices and short‐wavelength Eötvös effects. The use of dedicated exponential filters gives us a way to eliminate these high‐frequency effects. Examples of the resulting free‐air anomaly at 5100‐m altitude along one particular profile are given and compared with free‐air anomaly deduced from the classical method for processing airborne gravity data, and with upward‐continued ground gravity data. The well‐known trade‐off between accuracy and resolution is discussed in the context of a mountainous area.

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Inversion and uncertainty estimation of gravity data using simulated annealing: An application over Lake Vostok, East Antarctica

Geophysics ◽

10.1190/1.1852777 ◽

2005 ◽

Vol 70 (1) ◽

pp. J1-J12 ◽

Cited By ~ 34

Author(s):

Lopamudra Roy ◽

Mrinal K. Sen ◽

Donald D. Blankenship ◽

Paul L. Stoffa ◽

Thomas G. Richter

Keyword(s):

Simulated Annealing ◽

Gravity Data ◽

A Priori ◽

Model Space ◽

Uncertainty Estimation ◽

East Antarctica ◽

Airborne Gravity ◽

Model Parameters ◽

Data Set ◽

Lake Vostok

Interpretation of gravity data warrants uncertainty estimation because of its inherent nonuniqueness. Although the uncertainties in model parameters cannot be completely reduced, they can aid in the meaningful interpretation of results. Here we have employed a simulated annealing (SA)–based technique in the inversion of gravity data to derive multilayered earth models consisting of two and three dimensional bodies. In our approach, we assume that the density contrast is known, and we solve for the coordinates or shapes of the causative bodies, resulting in a nonlinear inverse problem. We attempt to sample the model space extensively so as to estimate several equally likely models. We then use all the models sampled by SA to construct an approximate, marginal posterior probability density function (PPD) in model space and several orders of moments. The correlation matrix clearly shows the interdependence of different model parameters and the corresponding trade-offs. Such correlation plots are used to study the effect of a priori information in reducing the uncertainty in the solutions. We also investigate the use of derivative information to obtain better depth resolution and to reduce underlying uncertainties. We applied the technique on two synthetic data sets and an airborne-gravity data set collected over Lake Vostok, East Antarctica, for which a priori constraints were derived from available seismic and radar profiles. The inversion results produced depths of the lake in the survey area along with the thickness of sediments. The resulting uncertainties are interpreted in terms of the experimental geometry and data error.

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