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The use of electromagnetic conductivity and electrical resistivity geophysical techniques has been employed in this study to investigate the occurrence, thickness, and spatial distribution of bitumen deposit around Makun-Omi in the Ijebu Waterside area of southwestern Nigeria. Subsurface apparent conductivity distribution data obtained using Geonic 34-3 equipment along fifteen traverses which sounded from different depths of 7.5, 15, 30 and 60 m at inter-coil separation of 10, 20 and 40 m in vertical and horizontal coupling modes and ground resistivity distribution measurements, obtained using Geopulse Tiger Allied resistivity meter at fourteen Vertical Electrical Sounding (VES) stations, were processed and employed to characterize the subsurface in terms of tar sands distribution. The conductivity and resistivity distribution in the form of a 3D earth model, iso-depth maps, 2D sections generated from the processed conductivity and resistivity data indicate relatively low conductivity <20 mS/m and high resistivity >1300 Ωm values around tar/bitumen impregnated sands which mostly occurred in the southern part of the study area. Clearly defined conductivity and resistivity anomalies which delineate the lateral and vertical occurrence of tar impregnated sands underscore the efficacy of integrating electromagnetic and electrical resistivity geophysical techniques to identify occurrence of economic deposits of tar sands in parts of southwestern Nigeria.
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Czasopismo
Rocznik
Tom
Strony
217--226
Opis fizyczny
Bibliogr. 18 poz., rys., tab., wykr.
Twórcy
autor
- University of Ibadan, Department of Geology, Ibadan, Nigeria
autor
- University of Ibadan, Department of Geology, Ibadan, Nigeria
Bibliografia
- Adegoke O.S., Ako B.D., Enu E.I., Petters S.W., Adegoke A.C.W., Odebode M.O. & Emofurieta W.O., 1976a. Tar Sand Project Phase II. Estimation of reserves, materials, testing and chemical analyses. Geological Consultancy Unit, Department of Geology, University of Ire, Ile-Ife [unpublished report].
- Adegoke O.S., Petters S.W., Enu E.I., Ako B.D., Adegoke-Anthony C.W., Odebode M.O. & Emofurieta W.O., 1976b. The bituminous sands of Ondo and Ogun states of Nigeria. [in:] Adegoke O.S. (ed.), Geological Guide to Some Nigerian Cretaceous-Recent Localities, Nigerian Mining and Geosciences Society Special Publication.
- Adegoke O.S., Enu E.I., Ajayi T.R., Ako B.D., Omatsola M.E. & Afonja A.A., 1981. Tar sands – a new energy raw material in Nigeria. [in:] Proceedings of Symposium on New Energy Raw Material, Karlovy Vary, Czechoslovakia, 17–22.
- Enu E.I., 1985. Textural characteristics of the Nigerian tar sands. Sedimentary Geology, 44(1–2), 65–81. https://doi.org/10.1016/0037-0738(85)90032-6.
- Enu E.I., 1990. Textural and occurrence of tar sands in Nigeria. [in:] Ako B.D. & Enu E.I. (eds.), Occurrence, utilization and economics of Nigerian tar sands: A workshop held in Ogun State University Ago-Iwoye, Nigeria on 29–31 May, 1990, Nigerian Mining and Geoscience Society, 11–16.
- Ghosh D.P., 1971. The Application of Linear Filter Theory to the direct interpretation of geoelectrical resistivity sounding measurements. Geophysical Prospecting, 19(2), 192–217. https://doi.org/10.1111/j.1365-2478.1971.tb00593.x.
- Klemme H.D., 1975. Geothermal gradients, heat flow and hydrocarbon recovery. [in:] Fischer A.G. & Judson S. (eds.), Petroleum and Global Tectonics, Princeton University Press, Princeton, 251–304.
- Koefoed O., 1979. Geosounding Principles 1: Resistivity Sounding Measurements. Elsevier Science Publishing Company, Amsterdam.
- Marquardt D.W., 1963. An Algorithm for Least-Squares Estimation of Nonlinear Parameters. Journal of the Society for Industrial and Applied Mathematics, 11(2), 431–441.
- McNeil J.D., 1990. Use of electromagnetic methods for groundwater studies. [in:] Ward S.H. (ed.), Geotechnical and Environmental Geophysics: Review and Tutorial, Society of Exploration Geophysicists, Tulsa, 191–218.
- Milos C., 2015. Bitumen in Nigeria: Weighing the True Cost of Extraction. Abeysteph, Abuja. https://ng.boell.org/sites/default/files/bitumen_in_nigeria.pdf.
- Nigerian Geological Survey Agency (NGSA), 2009. Geological Map of Southwestern Nigeria.
- Ogbe F.G.A., 1972. Stratigraphy of Strata Exposed in Ewekoro Quarry, Southwestern Nigeria. [in:] Dessauvagie T.F.J. & Whiteman A.J. (eds.), African Geology, University of Ibadan Press, Ibadan, 305–322.
- Okosun E.A., 1990. A review of the Cretaceous stratigraphy of the Dahomey embayment. West Africa: Cretaceous Research, 11, 17–27. https://doi.org/10.1016/S0195-6671(05)80040-0.
- Omatsola M.E. & Adegoke O.S., 1980. Tectonic evolution of the Dahomey Basin (West Africa) and its implication on the opening of the North and South Atlantic. [in:] 26th International Geological Congress, Paris, July 7–17, 1980, International Union of Geological Sciences.
- Omatsola M.A. & Adegoke O.S., 1981. Tectonic evolution and Cretaceous stratigraphy of the Dahomey Basin. Journal of Mining and Geology, 18(1), 130–137.
- Vender Velpen B.P.A., 1988. A computer processing package for DC. Resistivity interpretation for IBM compatibles. ITC Delft, Delft, The Netherlands.
- Whiteman A.J., 1982. Nigeria: Its Petroleum Geology, Resources and Potential. Volume 2. Graham and Trotman, London.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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