DETERMINATION OF THE IMPEDANCE OF THE SURFACE LAYER ABOVE HYDROCARBONS IN THE DUAL-FREQUENCY SIGNAL MODE
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Abstract
The impedance of the surface layer above hydrocarbons was simulated in the dual-frequency mode with prevalence of the low-frequency component of the probing signal. The resistance components of the surface layer above hydrocarbons, which form a symmetric matrix, were investigated. The dependences of the moduli of the surface layer above hydrocarbons on the concentrations of electrons, ions and frequency of the high-frequency component of the probing signal were determined. The frequency dependences of the impedance moduli of the studied media above the deposits and the influence of the layer permittivity were simulated. Resonance frequencies for the resistance components of the surface layer above hydrocarbons were established, which can serve as a criterion for identifying oil and gas fields. The obtained results for determining the impedance of the surface layer can be recommended for use in geoexploration systems for detecting hydrocarbon deposits and accumulations.
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References
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