APPLICATION OF PHASE METHODS TO SEARCH FOR HYDROCARBONS BASED ON AMPLITUDE-MODULATED SIGNALS
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Abstract
The characteristics of an anisotropic medium over hydrocarbons are studied using phase methods based on amplitude-modulated signals. Experimental studies of the phase characteristics of the surface impedance in the mode of amplitude-modulated signals have been carried out. Two components of the surface impedance are analyzed for this mode. A study was made of the influence of probing signal modes on the characteristics of an anisotropic medium over deposits based on a two-channel measurement scheme. A method for registering the boundaries of hydrocarbon deposits is proposed, based on the use of phase methods for searching and identifying hydrocarbon deposits (HCW) in the mode of amplitude-modulated signals. The research results can be used in the development of radio engineering systems for searching and delineating oil and gas deposits and their application for exploration geophysics.
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References
Moskvichew, V. N. (1991). Interraction of electromagnetic waves (EMW) with anisotropic inclusion in communication line, 9th Microw. Conf. NICON – 91: Vol. 1, (240–244). Rydzyna.
Yanushkevich, V. F., Dauhiala, D. A., Adamovich, A. L., Abramenka, S. N., & Bogush, V. A. (2021). Effect of a powerful low-frequency signal on an anisotropic medium over hydrocarbon. J. Phys.: Conf. Ser., (1889). DOI: 10.1088/1742-6596/1889/2/022059.
Yanushkevich, V. F., Dauhiala, D. A., Adamovich, A. L., Abramenka, S. N., & Kalintsau, S. V. (2022). Interaction of twofrequency electromagnetic waves with anisotropic media over hydrocarbon accumulation. J. Phys.: Conf. Ser., (2373). DOI: https://iopscience.iop.org/article/10.1088/1742-6596/2373/5/052016.
Malekhmir, A., Urosevich, M., Bellefler, G., Dzhukhlin C., & Milkerait, B. (2012). Seismicheskie metody pri razvedke poleznykh iskopaemykh i planirovanii gornykh rabot – Vvedenie [Seismic methods in mineral exploration and mine planning]. Geofizika. DOI: 10.1190/2012-0724-SPSEIN.1.
Yanushkevich, V. F. (2017). Elektromagnitnye metody poiska i identifikatsii uglevodorodnykh zalezhei [Electromagnetic methods for searching and identifying hydrocarbon deposits]. Novopolotsk: PGU. (In Russ.).
Yanushkevich, V. F., Dauhiala, D. A., Maladzechkina, T. V., Kalintsau, S. V., & Bogush, V. A. (2022). Characteristics of anisotropic media over hydrocarbons in the mode of frequency-modulated signals. J. Phys.: Conf. Ser., (2373). DOI: 10.1088/1742-6596/2373/5/052026.
Shaidullin, R. R., & Voronkov, S. E. (2022). Poisk perspektivnykh na uglevodorody ob"ektov s ispol'zovaniem metodov GIS na primere otlozhenii Sargaevskogo gorizonta [Search for objects promising for hydrocarbons using well logging methods on the example of deposits of the Sargaev horizon]. Mezhdunarodnyi zhurnal gumanitarnykh i estestvennykh nauk [International J. of Humanities and Natural Sciences], 4-1(67), 66–73. DOI: 10.24412/2500-1000-2022-4-1-66-73.
Geldmacher, I., & Strack, K. (2017). A Fit-for-purpose electromagnetic System for Reservoir Monitoring and Geothermal Exploration. GRC Transactions, (41), 1649–1658.
Koskov, V. N. (2004). Geofizicheskie issledovaniya skvazhin. Perm: Perm. gos. tekhn. un-t. (In Russ.).
Gololobov, D. V. (2009). Vzaimodeistvie elektromagnitnykh voln i uglevodorodnykh zalezhei. Minsk: Bestprint. (In Russ.).
Henke, C. H., Krieger, M., Strack, K., & Zerilli, A. (2020). Subsalt imaging in Northern Germany using multi-physics (magnetotellurics, gravity, and seismic). Interpretatio, 8(4), 15–24.
Helwig, S. L., Wood, W., & Gloux B. (2019). Vertical–vertical controlled‐source electromagnetic instrumentation and acquisition. Geophysical Prospecting, 67(6), 1582–1594. DOI: 10.1111/1365-2478.12771.
Gololobov, D. V. (2008). Radiokompleksirovanie metodov elektromagnitnoi razvedki pri poiske zalezhei uglevodorodov [Radiocomplexation of the electromagnetic geological methods for exploration of hydrocarbon objects]. Doklady BGUIR, 8(38), 30–36. (In Russ., abstr. in Engl.).
Baryshnikov, I. A., & Tatarskii, A. Yu. (1996). Mnogoparametrovaya aerorazvedka metodom SDVR pri aerogeofizicheskikh issledovaniyakh na neftyanykh ob"ektakh Tatarii [Multi-parameter aerial survey using the SDVR method in airborne geophysical studies at oil facilities in Tataria]. In A. A. Petrov [et al.] (Eds.) Elektromagnitnye issledovaniya s kontroliruemymi istochnikami [Electromagnetic research with controlled sources] (39–40). St. Petersburg: VIRG – Rudgeofizika. (In Russ.).
Anderson, C., & Mattsson, J. (2010). An integrated approach to marine electromagnetic surveying using a towed streamer and source. First Break, 28(5), 71–75.
Gololobov, D. V., Yanushkevich, V. F., & Kalintsev, S. V. (2010). Impedansnye granichnye usloviya anizotropnoi sredy dlya amplitudno-modulirovannogo signala [Impedance boundary conditions for the environment above the hydrocarbon deposits in the amplitude-modulated signal mode]. Doklady BGUIR, 6(52), 13–17. (In Russ., abstr. in Engl.).
Gololobov, D. V., Orlova, O. V., & Yanushkevich, V. F. (2010). Vliyanie parametrov amplitudno-modulirovannogo vozdeistviya na fazovye sostavlyayushchie poverkhnostnogo impedansa anizotropnoi sredy plazmopodobnogo tipa [Influence of the amplitude-modulated effect parameters on the phase components of the surface impedance of an anisotropic plasma-like medium]. Vestnik Polotskogo gosudarstvennogo universiteta. Seriya C, Fundamental'nye nauki [Herald of Polotsk State University. Series С. Fundamental sciences], (9), 98–101. (In Russ., abstr. in Engl.).
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