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Article type: Research Article
Authors: Rauf, Muhammada; | Khan, Abid Muhammada | Ansari, Adeelb | Jilani, Muhammad Tahac | Shahzeb, Tahaa
Affiliations: [a] Electronic Engineering Department, Sir Syed University of Engineering and Technology, Karachi, Pakistan | [b] Computer Science Department, Shaheed Zulfikar Ali Bhutto Institute of Science and Technology, Karachi, Pakistan | [c] Graduate School of Science and Engineering, PAF Karachi Institute of Economics and Technology, Pakistan
Correspondence: [*] Corresponding author: Muhammad Rauf, Assistant Professor, Electronic Engineering Department, Sir Syed University of Engineering and Technology, Karachi, Pakistan. E-mail: mrauf@ssuet.edu.pk
Abstract: Marine controlled-source electromagnetic method (MCSEM) for seabed logging (SBL) uses a dipole source to generate low-frequency signals, and arrays of receivers to map the potential presence of hydrocarbon reservoirs. The characteristic depth of signal penetration in the subsurface, termed as skin depth, is one of the key parameters. However, the electromagnetic response by the resistive target in contrast to the skin depth evaluation has been less thoroughly documented. In this paper, a lab scale testing is performed to generate a data set with precisely scaled dimensions. The purpose is to verify the skin depth phenomenon in complex stratified mediums for hydrocarbon detection. The synthetic electromagnetic data is produced using 1D modeling to validate the experimental results. The calculated correlation coefficient (CC) of more than 0.9 showed a good agreement between experimental and synthetic response. This outcome reveals that the depth of hydrocarbon detection does not solely depend on the skin depth of the applied frequency. The validated results recommend that a broadband electromagnetic transmitting system may reveal more authentic information about the hydrocarbon presence and extent of the hydrocarbon prospects.
Keywords: Controlled-source electromagnetic methods, skin depth, electrode-based transmitter, 1D forward modeling, electromagnetic simulation
DOI: 10.3233/JAE-180105
Journal: International Journal of Applied Electromagnetics and Mechanics, vol. 60, no. 3, pp. 313-326, 2019
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