ELECTROMAGNETIC METHODS OF SEARCHING AND DEFINITION OF HYDROCARBON DEPOSITS
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Abstract
The article studies the characteristics of an anisotropic medium over hydrocarbons with the complex use of electromagnetic geo-exploration methods. The simulation of the components of dielectric permittivity tensors in the mode of amplitude-modulated, frequency-modulated, amplitude-frequency-modulated and radio pulse signals is carried out. The frequencies of the electron plasma and electron cyclotron resonances for the specified regimes are established. A study was made of the influence of modes of probing signals on the characteristics of an anisotropic medium above deposits and the components of the dielectric tensor. The effect of particle concentration variation on the real components of the components of the dielectric permittivity of an anisotropic medium above the UVZ is analyzed. Recommendations are given for improving the methods of electrical exploration and their application for prospecting geophysics.
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References
Gololobov, D. V. (2009) Vzaimodeistvie elektromagnitnykh voln i uglevodorodnykh zalezhei [Interaction of electromagnetic waves and hydrocarbon deposits]. Minsk: Bestprint. (In Russ.).
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 // Journal of Physics [Conference Series], (1889). DOI: 10.1088/1742-6596/1889/2/022059.
Khmelevskoi, V. K., Gorbachev, Yu. I., Kalinin, A. V., Popov, M. G., Seliverstov, N. I., & Shevnin, V. A. (2004). Geofizicheskie metody issledovaniya [Geophysical research methods]. Petropavlovsk-Kamchatskii: KGPU.
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.
Anderson, C., & Mattsson, J. (2010). An integrated approach to marine electromagnetic surveying using a towed streamer and source. First Break, 28(5), 71–75.
Holten, T., Luo, X., Naevdal, G., & Helwig, S. L. (2016). Time lapse CSEM reservoir monitoring of the Norne field with vertical dipoles. SEG Technical Program Expanded Abstracts, (35), 971–975.
Gololobov, D. V., Kuraev, A. A., & Stadnik, Yu. N. (2005). Poiski, razvedka i monitoring zalezhei nefti, gaza i uglya radiovolnovym metodom [Search, exploration and monitoring of oil, gas and coal deposits by radio wave method]. Geologicheskoi sluzhbe Rossii 300 let: tez. dokl. (171). Saint Petersburg: VIRG – Rudgeofizika. (In Russ.).
Geldmacher, I., & Strack, K. (2017). A Fit-for-purpose electromagnetic System for Reservoir Monitoring and Geothermal Exploration. GRC Transactions, (41), 1649–1658.
Boltintsev, V. B., Il'yakhin, V. N., & Bezrodnyi, K. P. (2012). Metod elektromagnitnogo impul'snogo sverkhshirokopolosnogo zondirovaniya podstilayushchei sredy [Method of electromagnetic pulsed ultra-wideband sounding of the underlying medium]. Zhurnal radioelektroniki, (1). http://jre.cplire.ru/jre/jan12/14/text.html (In Russ.).
Burtsev, M. I. (2006). Poiski i razvedka mestorozhdenii nefti i gaza [Search and exploration of oil and gas fields]. Moscow: RUDN. (In Russ.).
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.
Helwig, S. L., Wood, W., & Gloux B. (2019). Vertical–vertical controlled‐source electromagnetic instrumentation and acquisition. Geophysical Prospecting, 67(6), 1582–1594.
Railyan, I. G. (2002). Novaya rossiiskaya sputnikovaya tekhnologiya poiska mestopolozhenii nefti, gaza i drugikh poleznykh iskopaemykh [New Russian satellite technology for searching for the locations of oil, gas and other minerals]. Neft', gaz i biznes, (6), 20. (In Russ.).
Konstebl, S. (2010). Desyat' let morskoi CSEM dlya razvedki uglevodorodov [Ten years of offshore CSEM for hydrocarbon exploration]. Geofizika, 75(5). (In Russ.).
Yanushkevich, V. F. (2017). Elektromagnitnye metody poiska i identifikatsii uglevodorodnykh zalezhei [Electromagnetic methods for searching and identifying hydrocarbon deposits]. Novopolotsk: PGU. (In Russ.).
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.).
Gololobov, D. V., Yanushkevich, V. F., & Kalintsev, S. V. (2010). Impedansnye granichnye usloviya anizotropnoi sredy dlya amplitudno-modulirovannogo signala [Impedance boundary conditions of an anisotropic medium for an amplitude modulated signal]. Doklady BGUIR, 6(52), 13–17. (In Russ., abstr. in Engl.).
Stepulenok, S. V., & Yanushkevich, V. F. (2009). Vzaimodeistvie amplitudno-chastotno-modulirovannykh signalov so sredoi nad uglevodo-rodnymi zalezhami [Interaction of amplitude-frequency-modulated signals with the environment above hydrocarbon deposits]. Vestnik Polotskogo gosudarstvennogo universiteta. Seriya C, Fundamental'nye nauki [Herald of Polotsk State University. Series С. Fundamental sciences], (9), 103–108. (In Russ., abstr. in Engl.).
Yanushkevich, V. F., Alieva, S. P., & Kalintsev, S. V. (2021).Vliyanie rezhima radioimpul'snykh signalov na kharakteristiki anizotropnoi sredy nad uglevodorodami [Influence of the regime of radio pulse signals on the characteristics of an anisotropic medium over hydrocarbons]. Vestnik Polotskogo gosudarstvennogo universiteta. Seriya C, Fundamental'nye nauki [Herald of Polotsk State University. Series С. Fundamental sciences], (12), 47–54. (In Russ., abstr. in Engl.).