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The use of electromagnetic and vertical electrical sounding methods in groundwater exploration

Yıl 2019, Cilt: 158 Sayı: 158, 327 - 344, 25.04.2019
https://doi.org/10.19111/bulletinofmre.451557

Öz

Electromagnetic (EM)
profiling and Vertical Electrical Sounding (VES) studies were carried out for groundwater
exploration in the Twifo – Hemang Lower Denkyira Districts of Ghana. These two geophysical
methods were used for exploring the groundwater potentials beneath Achiase, Mbaa
Mpe Hia Community and Moseaso Community. This paper seeks to encourage the use of
inversion for interpreting electromagnetic data rather than the usual
qualitative interpretation method using line graphs and also the use of apparent
resistivity maps as 2D pseudo resistivity maps to support interpretations of the
1D inversion results (in cases where the available budget could not permit 2D and
or 3D inversion). These would help in enhancement of obtained results, reduce ambiguity
and help decision making. The EM results revealed that; the three communities are
underlain by two layers with the first layer having the thickness range between
2 to 10 m and the second layer is a half space. The results from VES studies indicate
that; Achiase Community and Mbaa Mpe Hia No. 2 community are underlain by three
geoelectrical layers and Moseaso Community is underlain by four geoelectrical layers.
On the basis of this study the Moseaso Community is ranked highest in terms of groundwater
potential followed by the Achiase community and finally the Mbaa Mpe Hia No.2 Community.
Several sites were recommended for drilling boreholes for water supply in these
communities.



 

Kaynakça

  • Anechana, R. 2013. Groundwater potential assessment of Kintampo North Municipality of Ghana using the electromagnetic method and vertical electrical sounding. Master thesis, Kwame Nkrumah University of Science and Technology, Kumasi (unpublished).
  • Anon, 2012. Twifo Hemang Lower Denkyira Distric. Twifo Heman Lower Denkyira District Assembly. Available at: http://thld.ghanadistricts.gov.gh/ (Accessed January 31, 2016).
  • Carrasquilla, A., A. Gonçalves, C., Ulugergerli, E. 2007. Evaluating the performance of difference geophysical methods for groundwater prospecting in Espirito Santo Basin - Southeast Brazil. Tecnociencia, 9(2), pp.89–106.
  • Chegbeleh, L.P., Akudago, J.A., Nishigaki, M., Edusei, S.N.K. 2009. Electromagnetic Geophysical Survey for Groundwater Exploration in the Voltaian of Northern Ghana. Journal of environmental Hydrology, 17, 1–16.
  • Fitterman, D.V., Stewartj, M.T. 1986. Transient electromagnetic sounding for groundwater. Geophysics, 51(4), 995–1005.
  • Frischknecht, F.C., Lasbon, V.F., Spies, B.R., Anderson, W.L. 1991. Profiling methods using small sources. In N. M. Nabighian, ed. Electromagnetic methods in applied geophysics, 105–270.
  • Gyamera, E.A., Kuma, J.S., Okae-Anti, D. 2014. Hydrogeological studies on soils developed over granitic deposits. International Journal of Advance Agricultural Research,, 2, 29–40.
  • Keller, G.V., Frischknecht, F.C. 1977. Electrical methods in geophysical prospecting. In International series of monographs in electromagnetic waves. UK, p. 517.
  • Koroney, A. 2013. Groundwater exploration using shallow geophysical methods Franklin County, Pennsylvania. Masters thesis ,Shippensburg University. p. 26 (unpublished).
  • Loke, M.H. 2001. RES1D. , p.7. Available at: www. geoelectrical.com.
  • Mainoo, P.A., Agyekum, W. A., Dapaah-Siakwan, S., Darko, P.K. 2007. Hydrogeological Investigations to Select Borehole Drilling Sites in ten Communities of the Twifo-Hemang Lower Denkyira District of Central Region of Ghana, Accra, Ghana p.324 (unpublished).
  • McNeill, J. 1980. Electromagnetic Terrain Conductivity measurement at Low induction Number, Geonics Ltd., Technical Note. Ontario, Canada. Available at: http://www.geonics.com/pdfs/technicalnotes/ tn6.pdf.
  • Menyeh, A., Noye, R.M., Danuor, S.K. 2005. Prospecting for Groundwater using the Electromagnetic Method in the Voltaian Sedimentary Basin in the Northern Region of Ghana - A Case Study of the Gushiegu - Karaga District. Journal of Science and Technology, 25(2), 53–65.
  • Mohammed Nazifi, H. 2015. The use of integrated geophysical methods for groundwater exploration in Ghana. Masters thesis, Sakarya University. p.242 (unpublished).
  • Monteiro Santos, F.A. 2004. 1-D laterally constrained inversion of EM34 profiling data. Journal of Applied Geophysics, 56(2),123–134.
  • Nejad H.T., Mumipour M., Kaboli R., Najib O. A. 2011. Vertical electrical sounding (VES) resistivity survey technique to explore groundwater in an arid region, Southeast Iran. Journal of Applied Sciences. 11(23). 3765-3774.
  • Okafor, P., Mamah, L. 2012. Integration of Geophysical Techniques for Groundwater Potential Investigation in Katsina - Ala, Benue State, Nigeria. The Practical Journal of Science and Technology. 13(2). 463–474.
  • Olakunle Coker, J. 2012. Vertical electrical sounding (VES) methods to delineate potential groundwater aquifers in Akobo area, Ibadan, South-western, Nigeria. Journal of Geology and Mining Research, 4(2), 35–42.
  • Omosuyi, G. O. 2010. Geoelectric Assessment of Groundwater Prospect and Vulnerability of Overburden Aquifers at Idanre, Southwestern Nigeria. Ozean Journal of Applied Sciences. 3(1). 19 – 28.
  • Pirttijärvi, M. 2014. AEMINV, Laterally constrained 1-D inversion of EM profile data, User’s guide. Oulu, Finland.
  • Reynolds, J.M. 1997. An introduction to applied and environmental geophysics, West Sussex, England: John Wiley and Sons Ltd. p. 710
  • Somiah, J. 2013. Application of Electromagnetic and Electrical Resistivity Methods in Investigating Groundwater Resources of The Sunyani Municipality in The Brong-Ahafo Region of Ghana. Master thesis, Kwame Nkrumah University of Science and technology, Kumasi. p. 150 (unpublished).
  • Spies, B.R., Frischknecht, F.C. 1991. Electromagnetic Sounding. In N. M. Nabighian, ed. Electromagnetic methods in applied geophysics, 285–425.
  • Thamke Joanna, N., Craigg Steven, D., Mendes Thomas, M. 1998. Use of terrain electromagnetic geophysical methods to map saline-water contamination, East poplar oil field, Northeastern Montana. Symposium on the Application of Geophysics to Engineering and Environmental Problems. 205- 214.
  • Tsikudo Kwasi, B. 2009. Geophysical investigation for groundwater in the Gushiegu - Karaga and Zabzugu - Tatale District of the Northern Region of Ghana using the electromagnetic method. Kwame Nkrumah Universty of Science and Technology, Kumasi. p. 148 (unpublished).
  • Wymana, D.A., O’Neillb, C., Ayer, J. 2008. Evidence for Modern-Style Subduction to 3.1 Ga: A Plateau – Adakite – Gold (Diamond) Association. Condie, K.C., Pease, V. (Eds.), (GSA Special Paper 440),129–148.
Yıl 2019, Cilt: 158 Sayı: 158, 327 - 344, 25.04.2019
https://doi.org/10.19111/bulletinofmre.451557

Öz


Kaynakça

  • Anechana, R. 2013. Groundwater potential assessment of Kintampo North Municipality of Ghana using the electromagnetic method and vertical electrical sounding. Master thesis, Kwame Nkrumah University of Science and Technology, Kumasi (unpublished).
  • Anon, 2012. Twifo Hemang Lower Denkyira Distric. Twifo Heman Lower Denkyira District Assembly. Available at: http://thld.ghanadistricts.gov.gh/ (Accessed January 31, 2016).
  • Carrasquilla, A., A. Gonçalves, C., Ulugergerli, E. 2007. Evaluating the performance of difference geophysical methods for groundwater prospecting in Espirito Santo Basin - Southeast Brazil. Tecnociencia, 9(2), pp.89–106.
  • Chegbeleh, L.P., Akudago, J.A., Nishigaki, M., Edusei, S.N.K. 2009. Electromagnetic Geophysical Survey for Groundwater Exploration in the Voltaian of Northern Ghana. Journal of environmental Hydrology, 17, 1–16.
  • Fitterman, D.V., Stewartj, M.T. 1986. Transient electromagnetic sounding for groundwater. Geophysics, 51(4), 995–1005.
  • Frischknecht, F.C., Lasbon, V.F., Spies, B.R., Anderson, W.L. 1991. Profiling methods using small sources. In N. M. Nabighian, ed. Electromagnetic methods in applied geophysics, 105–270.
  • Gyamera, E.A., Kuma, J.S., Okae-Anti, D. 2014. Hydrogeological studies on soils developed over granitic deposits. International Journal of Advance Agricultural Research,, 2, 29–40.
  • Keller, G.V., Frischknecht, F.C. 1977. Electrical methods in geophysical prospecting. In International series of monographs in electromagnetic waves. UK, p. 517.
  • Koroney, A. 2013. Groundwater exploration using shallow geophysical methods Franklin County, Pennsylvania. Masters thesis ,Shippensburg University. p. 26 (unpublished).
  • Loke, M.H. 2001. RES1D. , p.7. Available at: www. geoelectrical.com.
  • Mainoo, P.A., Agyekum, W. A., Dapaah-Siakwan, S., Darko, P.K. 2007. Hydrogeological Investigations to Select Borehole Drilling Sites in ten Communities of the Twifo-Hemang Lower Denkyira District of Central Region of Ghana, Accra, Ghana p.324 (unpublished).
  • McNeill, J. 1980. Electromagnetic Terrain Conductivity measurement at Low induction Number, Geonics Ltd., Technical Note. Ontario, Canada. Available at: http://www.geonics.com/pdfs/technicalnotes/ tn6.pdf.
  • Menyeh, A., Noye, R.M., Danuor, S.K. 2005. Prospecting for Groundwater using the Electromagnetic Method in the Voltaian Sedimentary Basin in the Northern Region of Ghana - A Case Study of the Gushiegu - Karaga District. Journal of Science and Technology, 25(2), 53–65.
  • Mohammed Nazifi, H. 2015. The use of integrated geophysical methods for groundwater exploration in Ghana. Masters thesis, Sakarya University. p.242 (unpublished).
  • Monteiro Santos, F.A. 2004. 1-D laterally constrained inversion of EM34 profiling data. Journal of Applied Geophysics, 56(2),123–134.
  • Nejad H.T., Mumipour M., Kaboli R., Najib O. A. 2011. Vertical electrical sounding (VES) resistivity survey technique to explore groundwater in an arid region, Southeast Iran. Journal of Applied Sciences. 11(23). 3765-3774.
  • Okafor, P., Mamah, L. 2012. Integration of Geophysical Techniques for Groundwater Potential Investigation in Katsina - Ala, Benue State, Nigeria. The Practical Journal of Science and Technology. 13(2). 463–474.
  • Olakunle Coker, J. 2012. Vertical electrical sounding (VES) methods to delineate potential groundwater aquifers in Akobo area, Ibadan, South-western, Nigeria. Journal of Geology and Mining Research, 4(2), 35–42.
  • Omosuyi, G. O. 2010. Geoelectric Assessment of Groundwater Prospect and Vulnerability of Overburden Aquifers at Idanre, Southwestern Nigeria. Ozean Journal of Applied Sciences. 3(1). 19 – 28.
  • Pirttijärvi, M. 2014. AEMINV, Laterally constrained 1-D inversion of EM profile data, User’s guide. Oulu, Finland.
  • Reynolds, J.M. 1997. An introduction to applied and environmental geophysics, West Sussex, England: John Wiley and Sons Ltd. p. 710
  • Somiah, J. 2013. Application of Electromagnetic and Electrical Resistivity Methods in Investigating Groundwater Resources of The Sunyani Municipality in The Brong-Ahafo Region of Ghana. Master thesis, Kwame Nkrumah University of Science and technology, Kumasi. p. 150 (unpublished).
  • Spies, B.R., Frischknecht, F.C. 1991. Electromagnetic Sounding. In N. M. Nabighian, ed. Electromagnetic methods in applied geophysics, 285–425.
  • Thamke Joanna, N., Craigg Steven, D., Mendes Thomas, M. 1998. Use of terrain electromagnetic geophysical methods to map saline-water contamination, East poplar oil field, Northeastern Montana. Symposium on the Application of Geophysics to Engineering and Environmental Problems. 205- 214.
  • Tsikudo Kwasi, B. 2009. Geophysical investigation for groundwater in the Gushiegu - Karaga and Zabzugu - Tatale District of the Northern Region of Ghana using the electromagnetic method. Kwame Nkrumah Universty of Science and Technology, Kumasi. p. 148 (unpublished).
  • Wymana, D.A., O’Neillb, C., Ayer, J. 2008. Evidence for Modern-Style Subduction to 3.1 Ga: A Plateau – Adakite – Gold (Diamond) Association. Condie, K.C., Pease, V. (Eds.), (GSA Special Paper 440),129–148.
Toplam 26 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Hafiz Mohammed Nazıfı 0000-0002-3762-6563

Levent Gülen 0000-0002-3572-8785

Yayımlanma Tarihi 25 Nisan 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 158 Sayı: 158

Kaynak Göster

APA Mohammed Nazıfı, H., & Gülen, L. (2019). The use of electromagnetic and vertical electrical sounding methods in groundwater exploration. Bulletin of the Mineral Research and Exploration, 158(158), 327-344. https://doi.org/10.19111/bulletinofmre.451557
AMA Mohammed Nazıfı H, Gülen L. The use of electromagnetic and vertical electrical sounding methods in groundwater exploration. Bull.Min.Res.Exp. Nisan 2019;158(158):327-344. doi:10.19111/bulletinofmre.451557
Chicago Mohammed Nazıfı, Hafiz, ve Levent Gülen. “The Use of Electromagnetic and Vertical Electrical Sounding Methods in Groundwater Exploration”. Bulletin of the Mineral Research and Exploration 158, sy. 158 (Nisan 2019): 327-44. https://doi.org/10.19111/bulletinofmre.451557.
EndNote Mohammed Nazıfı H, Gülen L (01 Nisan 2019) The use of electromagnetic and vertical electrical sounding methods in groundwater exploration. Bulletin of the Mineral Research and Exploration 158 158 327–344.
IEEE H. Mohammed Nazıfı ve L. Gülen, “The use of electromagnetic and vertical electrical sounding methods in groundwater exploration”, Bull.Min.Res.Exp., c. 158, sy. 158, ss. 327–344, 2019, doi: 10.19111/bulletinofmre.451557.
ISNAD Mohammed Nazıfı, Hafiz - Gülen, Levent. “The Use of Electromagnetic and Vertical Electrical Sounding Methods in Groundwater Exploration”. Bulletin of the Mineral Research and Exploration 158/158 (Nisan 2019), 327-344. https://doi.org/10.19111/bulletinofmre.451557.
JAMA Mohammed Nazıfı H, Gülen L. The use of electromagnetic and vertical electrical sounding methods in groundwater exploration. Bull.Min.Res.Exp. 2019;158:327–344.
MLA Mohammed Nazıfı, Hafiz ve Levent Gülen. “The Use of Electromagnetic and Vertical Electrical Sounding Methods in Groundwater Exploration”. Bulletin of the Mineral Research and Exploration, c. 158, sy. 158, 2019, ss. 327-44, doi:10.19111/bulletinofmre.451557.
Vancouver Mohammed Nazıfı H, Gülen L. The use of electromagnetic and vertical electrical sounding methods in groundwater exploration. Bull.Min.Res.Exp. 2019;158(158):327-44.

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