1887
24th International Geophysical Conference and Exhibition – Geophysics and Geology Together for Discovery
  • ISSN: 2202-0586
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Abstract

The seismic method is able to produce highly accurate images of the Earth’s subsurface. Having such detail is not only an important factor in mining, but also in civil engineering. Bauxite exploration attracts both government and industrialists to invest in it because of the high percentage of aluminum present. The economic importance of extracting aluminum from bauxite encouraged us to take this challenge; to image bauxite layers by using a high-resolution seismic reflection method at Al Qassim, Saudi Arabia. Since the subsurface structure of the area is complex, this high-resolution reflection method was carried out along a 2D line with geophone and source interval, with settings at 5m. The result for the seismic section shows that the depth and thickness of the bauxite layer varied between 20 to 34m, and 3 to 7m respectively. In addition, the bauxite layer was sandwiched between clay layers. In order to achieve an even more precise depth than presented by seismic section alone, we tied the drilled wells to the seismic data and we accomplished a well match with an approximation error of 1-2m, which may have been caused by the upper clay layer or by very shallow loose subsurface material. The seismic method thus applied shows the ability to detect significant details within the near surface of the earth, and is considered more cost-effective than only drilled wells.

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/content/journals/10.1071/ASEG2015ab304
2015-12-01
2026-01-18

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References

  1. Benjumea, B, Hunter J. A, Good R. L, Burns, R. A & Ross M 2001, Application of high-resolution seismic-reflection techniques in Champlain Sea sediments near Lachute-Saint-Benoit, Quebec: Geological Survey of Canada Current Research 2001-D6.
  2. Bi, B. K 2009, The application of the electric method to Bauxite exploration: Geophysical and Geochemical Exploration, vol. 33, pp. 400-402.
  3. Clement, C. R, Pratt, T. L, Holmes, M. L & Sherrod, B. L 2010, High-Resolution Seismic Reflection Imaging of Growth Folding and Shallow Faults beneath the Southern Puget Lowland, Washington State, Bulletin of the Seismological Society of America, vol. 100, pp. 1710-1723.
  4. Cocker, J, Urosevic, M & Evans, B 1997, A high resolution seismic survey to assist in mine planning: Proceeding of fourth decennial international conference on mineral exploration, edited by A. G. Gubins, pp. 473 - 476.
  5. Geissler, P.E 1989, Seismic reflection profiling for groundwater studies in Victoria, Australia Geophysics, vol. 54, pp. 31 - 37
  6. Greenhalgh, S, Suprajitno, M & King, D 1986, Shallow seismic reflection investigations of coal in the Sydney Basin, Geophysics, vol.v51, pp. 1426-1437.
  7. Henson, H, Sexton, J & Jobling, J (1989), High-resolution seismic reflection study of shallow coal seams near Harco, Illinois. SEG Technical Program Expanded Abstracts 1989: pp. 372-374.
  8. Jongerius, P and Helbig, K 1988, Onshore high-resolution seismic profiling applied to sedimentology, Geophysics, vol. 53, pp. 1276-1283.
  9. Klein, C & Hurlbut C. S 1993, Manual of mineralogy, John Wiley and Sons Publishers, Canada.
  10. Knapp, R & Ertan Muftuoglu, A (1987), Detection of coals 30 cm thick at depths of 50 and 60 m by seismic reflection profiling. SEG Technical Program Expanded Abstracts 1987: pp. 227-228
  11. Neishtadt, N., Eppelbaum, L & Levitski, A., 2006. Application of seismo-electric phenomena in exploration geophysics: Review of Russian and Israeli experience. Geophysics, vol. 71, pp. 41-53.
  12. Palmer, D 1987, High resolution seismic reflection surveys for coal, Geoexploration, vol. 24, pp. 397-408.
  13. Philip T.C. H, Ron M.C and Kumar R 2004, High-resolution seismic reflection imaging of a thin, diamondiferous kimberlite dyke, Geophysics, vol. 69, pp. 1143-1154
  14. Tsourlos, P, Tsokas, G & Yiamas, A 2005, Derecting bauxitic lenses in galleries using geophysicsal techniques: Proceeding of the conference of the committee of Economic Geology, Mineralogy, Geochemistry of the Greek geological Society, Thessaloniki, pp. 367-376.
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  • Article Type: Research Article
Keyword(s): and bauxite; depth conversion; high-resolution seismic reflection method

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