Evaluation of geothermal potential in some parts of Bida Basin of Nigeria using Curie point depths and heat flow from spectral analysis of aeromagnetic data

Matthew Tersoo Tsepav, Abu Mallam

Abstract

The Centroid method of Spectral Depth analysis was used to evaluate the Curie point depth (CPD), Geothermal Gradient and Heat Flow in some parts of the Bida Basin of Nigeria with a view to determining the energy potential of the area. The reduced-to-pole aeromagnetic data was divided into 16 overlapping ensembles and Fast Fourier Transformed to decompose the anomalies into their energy and wavenumber components using Oasis montaj software. The radial power spectrum was calculated for each of the grid points with the locations of the centres of the ensembles and a plot of Energy spectrum versus frequency was carried out to generate two different gradients: s1 and s2 representing different depth source models. These gradients were used to evaluate the average depth to the top of the deepest crustal block, Zt, depth to the centroid of the deepest crustal block, Z0, CPD, Geothermal Gradient and Heat flow. From the results obtained, the CPD varied from 2.59 to 8.23 Km while the thermal gradient and heat flow in the area revealed values ranging from 70.45 to 224.15 oCKm-1 and 176.13 to 560.37mWm-2 respectively. The results of the contouring in conjunction with the CPD, geothermal gradient and the heat flow values have shown that the area has a greater energy potential in the south-eastern block of Katonkarfi, with shallow CPD and high geothermal gradient and heat flow. These results could be incorporated in the GIS and available geological, geophysical and geochemical information of the area to facilitate selection of the optimum site for energy exploration.

Keywords

Spectral analysis, Curie point depth, geothermal potential, Heat flow

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References

Adeleye, D. R. “Origin of ironstones, an example from the middle Niger Basin, Nigeria”. Journal of Sedimentary Petrology, 43, 709–727, 1973.

Adeleye, D. R. The Geology of the middle Niger basin. In: Kogbe, C.A. (Ed.), Geology of Nigeria, second ed. Elizabethan Publishing Co., Lagos, 335–33, 1989.

Akande, S.O., Ojo, O.J., Erdtmann, B.D. and Hetenyi, M. “Paleoenvironments, organic petrology and Rock-Eval studies on source rock facies of the Lower Maastrichtian Patti Formation, southern Bida Basin, Nigeria”. Journal of African Earth Sciences, 41, 394–406, 2005.

Anakwuba EK, Chinwuko AI. “One dimensional spectral analysis and Curie depth isotherm of Eastern Chad Basin, Nigeria”. Journal of Natural Science Resources, 5(19):14–22, 2015.

Aydin I, Oksum E. “Exponential approach to estimate the Curie-temperature depth”. Journal of Geophysical Engineering 7:113–125, 2010.

Bernadette C. Dimgba, Daniel N. Obiora, Johnson U. Abangwu and Desmond O. Ugbor “Study of Curie point depth and heat flow from spectral analysis of aeromagnetic data for geothermal potential of Gubio, Chad Basin”. Nigeria. Springer Nature Applied Sciences 2:1351 https://doi.org/10.1007/s42452-020-3146-9, 2020.

Bhattacharyya BK, Leu LK. “Spectral analysis of gravity and magnetic anomalies due to rectangular prismatic bodies”. Geophysics 41:41–50, 1977.

Eletta BE, Udensi EE. “Investigation of the Curie point isotherm from the magnetic fields of eastern sector of central Nigeria”. Geosciences 2(4):101–106, 2012.

Gunn PJ. “An algorithm for reduction to pole that works at all magnetic latitudes”. Exploration Geophysics 26:247–254, 1995.

Hinze WJ, VonFrese RRB, Saad AH Gravity and magnetic exploration. Cambridge University Press, Cambridge, 2013.

Jessop AM, Hobart MA, Sclater JG. “The world heat flow data collection 1975, Geothermal Services of Canada”. Geothermal Service 50:55–77, 1976.

Karastathis VK, Papoulia J, Di Fiore B, Makris J, Tsambas A, Stampolidis A, Papadopoulos GA “Exploration of the deep structure of the central Greece geothermal field by passive seismic and Curie depth analysis”, 72nd EAGE Conference & Exhibition incorporating SPE EUROPEC Barcelona, Spain, 14–17 June 2010, paper Po12.

Nwankwo CN, Ekine AS. “ Geothermal gradients in the Chad Basin, Nigeria, from bottom hole temperature logs”. International Journal of Physical Science, 4(12):777–783, 2009.

Obaje N. G.. Geology and Mineral Resources of Nigeria, Lecture Notes in Earth Sciences. Springer Dordrecht Heidelberg, London New York. 221p, 2009.

Obaje, N. G., Balogu, D. O., Idris-Nda, A., Goro, I. A., Ibrahim, S. I., Musa, M. K. Dantata, S. H., Yusuf I., Mamud-Dadi, N. and Kolo I. “A Preliminary Integrated Hydrocarbon Prospectivity Evaluation of the Bida Basin in North Central Nigeria”. Petroleum Technology Development Journal, 3 (2), 36-65, 2013.

Obande GE, Lawal KM, Ahmed LA. “Spectral analysis of aeromagnetic

data for geothermal investigation of Wikki Warm Spring, north-east Nigeria”. Geothermics 50:85–90, 2014.

Olaniyan, O., Abbah, U., Nwonye, N., Alichi, A. and Udensi, E.E. (Interpretation of Total Magnetic Intensity Field over Bida Basin. Nigerian Geological Survey Agency, Occasional Paper No. 15. 98p, 2012.

Ross HE, Blakely RJ, Zoback MD. “Testing the use of aeromagnetic data for the determination of Curie depth in California”. Geophysics 71(5):L51–L59, 2006.

Saleh, S., Salk, M., & Pamukçu, O. “Estimating Curie point depth and heat flow map for Northern Red Sea Rift of Egypt and its surroundings, from aeromagnetic data”. Pure and Applied Geophysics, 170, 863–885, 2013.

Stampolidis A, Kane I, Tsokas GN, Tsourlo PL. “Curie point depths of Albania inferred from ground total field magnetic data”. Surv Geophysics 26(4):461–480, 2005.

Tanaka A, Okubo Y, Matsubayashi O “Curie point depth based on spectrum analysis of the magnetic anomaly data in East and Southeast Asia”. Tectonophysics 306(3):461–470, 1999.

Tselentis GA “An attempt to define curie depths in Greece from aeromagnetic and heat flow data”. PAGEOPH 136:87–101, 1991.

Turcotte DL, Schubert G. Geodynamics: Applications of continuum physics to geological problems” Cambridge University Press. New York, 1982.

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