World Journal of Applied Physics

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Delineation of the Geotechnical Parameters Within the Kaduna Refining and Petrochemical Corporation Layout

Received: 06 April 2017    Accepted: 13 April 2017    Published: 23 May 2017
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Abstract

Direct Current Resistivity investigation for engineering studies was carried out around the Kaduna Refining and Petrochemical Corporation Industrial Layout within the Basement Complex of Central Nigeria. The study aimed at evaluating the competence of the near surface formation meant to aid in foundation design and other related engineering structures, and to unravel the subsurface profile which in turn determines if there would be any subsurface geotechnical parameters and lithological variation(s) that might lead to structures failure within the site. A total of twenty-two (22) VES statins were established. The data obtained were subjected to 1-D inversion algorithm to determine the layer parameters. The geo-electric section revealed three to five lithological units defined by the lateritic topsoil, silty/sandy/clayey, the weathered basement as well as the fresh basement. The resistivities and thicknesses of the topsoil range from 100 Ωm – 2668 Ωm and 0.3 m – 6.4 m respectively. The last layer considered as the fresh basement and in some cases the fractured basement has an infinite thickness with resistivity ranging from 610 Ωm – 79674 Ωm and the established average overburden thickness of the study area was found to be 23 m. A broad portion of the area was found to be competent for civil works except at VES stations C6 and D4 with relatively low topsoil resistivity. The competent regions have been recommended for major construction works such as high rise buildings, bridges and roads.

DOI 10.11648/j.wjap.20170202.11
Published in World Journal of Applied Physics (Volume 2, Issue 2, May 2017)
Page(s) 36-42
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Geotechnical, Competent Zone, Structure Failure, Lateritic Topsoil, Resistivity

References
[1] Adeniran A. J. (2013): Environmental Disasters and Management: Case Study of Building Collapse in Nigeria. Int J of Construction Engineering & Management 2(3), 39-45.
[2] Aboh, H. O. (2002). Geotechnical Characterization of Surface Materials in Kaduna Area, Kaduna State. Zuma J of Pure & Applied Science, 4(2): 23-33.
[3] Adebajo, K. (2005): A position paper by the Nigerian Institute of Structural Engineers a division of the Nigerian Society of Engineers (NSE) on Recent Structural Collapses in Nigeria and the Prevention of Future Incidences.
[4] Loke, M. H. (1999). Electrical Imaging Surveys for Environmental and Engineering Studies. A practical guide to 2-D and 3-D surveys. Malaysia.
[5] Opara, P. (2006). Building Collapse in Lagos State: Causes and Recommendations. Journal of Technology and Education in Nigeria 11 (1), 58-65.
[6] Michael, I. O.; Martins, O. O. and John, S. O. (2008): Geophysical Investigation of Road Failure in the Basement Complex Area of Southwestern Nigeria. Research Journal of Applied Sciences 3 (2): 103-112.
[7] Dogara, M. D., Aboh H. O. and Kogi K. A. (2016): D. C. Resistivity Investigation Of Subsurface Layering For Geotechnical Application In Millennium City, Kaduna, Kaduna State. Science World Journal Vol 11 (No 2), 30-34.
[8] Isaac, O. O., Jonah, C. A., and Joel, O. A. (2013): Assessment of Aquifer Characteristics in Relation to Rural Water Supply in Part of Northern Nigeria. Research 2(3) 22 – 27.
[9] Oyawoye, M. O. (1970): The Basement Complex of Nigeria, In: Dessauvagie, TFJ and Whiteman, A. J (Eds) African Geology. Ibadan: University Press, Ibadan Nigeria.
[10] Mortimore, M. J. (1970). Settlement Evolution and land” (Mortimore M. J. (ed) Zaria and its Region) Occasional paper 4. Department of Geography A. B. U. Zaria 102 – 122. Opara, P. (2006). Building Collapse in Lagos State: Causes and Recommendations. J of Technology and Education in Nigeria 11 (1), 58-65.
[11] Fadele, S. I., Jatua, S. B., and Patrick, N. O. (2012): Geophysical Engineering Investigation Around Makiyaye Village, Shika Area Within The Basement Complex Of North-Western Nigeria. Int J of Engineering Research and Applications, 11 43-1153.
[12] Bayowa, O. G., & Olayiwola, N. S. (2015). Electrical Resistivity Investigation for Topsoil Thickness, Competence and Corrosivity Evaluation: A Case Study from Ladoke Akintola. International Conference on Geological and Civil Engineering. V80. 11 [53-56].
[13] Aboh, H. O. and Osazuwa, I. B. (2000): Lithological Deductions from Regional Geoelectric Investigation in Kaduna Area, Kaduna State. Nig. J of Phys Vol. 12, 1-2.
[14] Abdullahi, N. K, and Udensi, E. E. (2008): Vertical Electrical Sounding Applied to Hydrogeologic and Engineering Investigations: A Case Study of Kaduna Polytechnic Staff Quarters, Nigeria. Nig. J of Phys, 20 (1), 175-188.
Author Information
  • Department of Physics, Kaduna State University, Kaduna, Nigeria

  • Department of Physics, Kaduna State University, Kaduna, Nigeria

  • Department of Physics, Kaduna State University, Kaduna, Nigeria

  • Department of Physics, Kaduna State University, Kaduna, Nigeria

  • Department of Physics, Kaduna State University, Kaduna, Nigeria

  • Department of Physics, Kaduna State University, Kaduna, Nigeria

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    Dogara Matoh Dary, Alao Joseph, Abdullahi Hassan, Ezekiel Jacob, George Jackson, et al. (2017). Delineation of the Geotechnical Parameters Within the Kaduna Refining and Petrochemical Corporation Layout. World Journal of Applied Physics, 2(2), 36-42. https://doi.org/10.11648/j.wjap.20170202.11

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    ACS Style

    Dogara Matoh Dary; Alao Joseph; Abdullahi Hassan; Ezekiel Jacob; George Jackson, et al. Delineation of the Geotechnical Parameters Within the Kaduna Refining and Petrochemical Corporation Layout. World J. Appl. Phys. 2017, 2(2), 36-42. doi: 10.11648/j.wjap.20170202.11

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    AMA Style

    Dogara Matoh Dary, Alao Joseph, Abdullahi Hassan, Ezekiel Jacob, George Jackson, et al. Delineation of the Geotechnical Parameters Within the Kaduna Refining and Petrochemical Corporation Layout. World J Appl Phys. 2017;2(2):36-42. doi: 10.11648/j.wjap.20170202.11

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  • @article{10.11648/j.wjap.20170202.11,
      author = {Dogara Matoh Dary and Alao Joseph and Abdullahi Hassan and Ezekiel Jacob and George Jackson and Ahammed Rais Auwal},
      title = {Delineation of the Geotechnical Parameters Within the Kaduna Refining and Petrochemical Corporation Layout},
      journal = {World Journal of Applied Physics},
      volume = {2},
      number = {2},
      pages = {36-42},
      doi = {10.11648/j.wjap.20170202.11},
      url = {https://doi.org/10.11648/j.wjap.20170202.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.wjap.20170202.11},
      abstract = {Direct Current Resistivity investigation for engineering studies was carried out around the Kaduna Refining and Petrochemical Corporation Industrial Layout within the Basement Complex of Central Nigeria. The study aimed at evaluating the competence of the near surface formation meant to aid in foundation design and other related engineering structures, and to unravel the subsurface profile which in turn determines if there would be any subsurface geotechnical parameters and lithological variation(s) that might lead to structures failure within the site. A total of twenty-two (22) VES statins were established. The data obtained were subjected to 1-D inversion algorithm to determine the layer parameters. The geo-electric section revealed three to five lithological units defined by the lateritic topsoil, silty/sandy/clayey, the weathered basement as well as the fresh basement. The resistivities and thicknesses of the topsoil range from 100 Ωm – 2668 Ωm and 0.3 m – 6.4 m respectively. The last layer considered as the fresh basement and in some cases the fractured basement has an infinite thickness with resistivity ranging from 610 Ωm – 79674 Ωm and the established average overburden thickness of the study area was found to be 23 m. A broad portion of the area was found to be competent for civil works except at VES stations C6 and D4 with relatively low topsoil resistivity. The competent regions have been recommended for major construction works such as high rise buildings, bridges and roads.},
     year = {2017}
    }
    

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  • TY  - JOUR
    T1  - Delineation of the Geotechnical Parameters Within the Kaduna Refining and Petrochemical Corporation Layout
    AU  - Dogara Matoh Dary
    AU  - Alao Joseph
    AU  - Abdullahi Hassan
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    AU  - Ahammed Rais Auwal
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    T2  - World Journal of Applied Physics
    JF  - World Journal of Applied Physics
    JO  - World Journal of Applied Physics
    SP  - 36
    EP  - 42
    PB  - Science Publishing Group
    SN  - 2637-6008
    UR  - https://doi.org/10.11648/j.wjap.20170202.11
    AB  - Direct Current Resistivity investigation for engineering studies was carried out around the Kaduna Refining and Petrochemical Corporation Industrial Layout within the Basement Complex of Central Nigeria. The study aimed at evaluating the competence of the near surface formation meant to aid in foundation design and other related engineering structures, and to unravel the subsurface profile which in turn determines if there would be any subsurface geotechnical parameters and lithological variation(s) that might lead to structures failure within the site. A total of twenty-two (22) VES statins were established. The data obtained were subjected to 1-D inversion algorithm to determine the layer parameters. The geo-electric section revealed three to five lithological units defined by the lateritic topsoil, silty/sandy/clayey, the weathered basement as well as the fresh basement. The resistivities and thicknesses of the topsoil range from 100 Ωm – 2668 Ωm and 0.3 m – 6.4 m respectively. The last layer considered as the fresh basement and in some cases the fractured basement has an infinite thickness with resistivity ranging from 610 Ωm – 79674 Ωm and the established average overburden thickness of the study area was found to be 23 m. A broad portion of the area was found to be competent for civil works except at VES stations C6 and D4 with relatively low topsoil resistivity. The competent regions have been recommended for major construction works such as high rise buildings, bridges and roads.
    VL  - 2
    IS  - 2
    ER  - 

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