REGULARITIES OF TWO-WAVE INTERACTION OF ELECTROMAGNETIC WAVES WITH THE MEDIUM ABOVE HYDROCARBONS
Article Sidebar
Main Article Content
Abstract
An analysis of the interaction of electromagnetic waves with the surface layer above hydrocarbons was conducted using a two-wave interaction with a predominantly low-frequency component of the radiating signal. The real parts and phases of the sum and difference components of the permittivity tensors of the surface layer above hydrocarbons were investigated. The dependences of the moduli and phases of the surface impedance of the medium above hydrocarbons on the frequency of the high-frequency component of the radiating signal were determined. The frequencies of the electron cyclotron and electron-plasma resonances were calculated, which allow for increased accuracy in oil and gas field exploration by expanding the testing modes. It was found that for the two-wave interaction mode, there are no resonances in the moduli of the surface impedance of the surface layer above hydrocarbons compared to the two-frequency interaction mode. The obtained results of modeling the characteristics of the surface layer above hydrocarbons can be recommended for use in radiotechnical systems for geological exploration of hydrocarbon deposits.
Article Details
This work is licensed under a Creative Commons Attribution 4.0 International License.
References
Gabrielsen P. T., Shantsev D. V., Fanavoll S. 3D CSEM for hydrocarbon exploration in the Barents Sea // EAGE 5th Saint Petersburg conference & exhibition. – 2012. – P. 1–5.
Интерпретация данных зондирования методом становления поля в ближней зоне с учетом индукционно-вызванной поляризации при площадных нефтегазопоисковых исследованиях на юге Сибирской платформы / С. В. Компаниец, Н. О. Кожевников, Е. В. Мурзина, В. С. Емельянов // Науки о Земле и недропользование. – 2019. – Т. 42, № 2. – С. 151–164. – DOI: 10.21285/2541-9455-2019-42-2-151-164.
Research on 3D Time-Lapse Electric Field Inversion Algorithm for Controlled Source Audio-Frequency Magnetotelluric Method / Q. Sun, H. Tan, W. Wan, Q. Hu // Appl. Sci. – 2024. – Vol. 14, iss. 4. – Art. ID 1560. – DOI: https://doi.org/10.3390/app14041560.
Electric-resonance sounding method and its application for, geological-geophysical and engineering-geological investigations / S. P. Levashov [et al.] // 66nd EAGE Conference and Technical Exhibition, Paris, France, 7–10 June 2003 (CDROM Abstracts volume).
Гололобов Д. В., Москвичев В. Н. Использование поляризационных свойств зондирующего сигнала при диагностике плазмоподобных сред // Радиотехника и электроника. – Мн.: Выш. школа. – 1994. – Вып. 22. – С. 66–74.
Weiss C. J. The fallacy of the “shallow-water problem” in marine CSEM exploration // Geophysics. – 2007. – Vol. 72, iss. 6. – P. A93–A97.
Хасанов Д. И. Введение в электроразведку: пособие для самостоятельного изучения для слушателей курсов повышения квалификации специальности «Геофизика». – Казань: Казан. гос. ун-т, 2009. – 75 с.
Янушкевич В. Ф. Электромагнитные методы поиска и идентификации углеводородных залежей. – Новополоцк: ПГУ, 2017. – 232 c.
Нордин В. В., Белкина Н. В. Система мониторинга калининградского подземного хранилища // Технико-технологические проблемы сервиса. – 2014. – № 2 (28). – С. 34–37.
Interaction of two-frequency electromagnetic waves with anisotropic media over hydrocarbon accumulation / V. F. Yanushkevich, D. A. Dauhiala, A. L. Adamovich et al. // Journal of Physics: Conference Series. – 2022. – Vol. 2373, iss. 5. – Art. ID 052016. – DOI: 10.1088/1742-6596/2373/5/052016.
Characteristics of anisotropic media over hydrocarbons in the mode of frequency-modulated signals / V. F. Yanushkevich, D. A. Dauhiala, T. V. Maladzechkina // Journal of Physics: Conference Series. – 2022. – Vol. 2373, iss. 5. – Art. ID 052026. – DOI: 10.1088/1742-6596/2373/5/052026.
Завадский С. А. Оценка частотных характеристик коэффициентов отражения при изменении концентрации частиц // Современные проблемы радиотехники и телекоммуникаций «РТ-2010»: материалы 6-й Междунар. молодежной науч.-техн. конф. / г. Севастополь (19–24 апр. 2010 г). – Севастополь: СевНТУ, 2011. – С. 65.
Commer, M. Massively parallel electrical-conductivity imaging of hydrocarbons using the IBM Blue Gene/L supercompute IBM / M. Commer, G. A. Newman, J. J. Carazzone et al. // Journal of Research and Development. – 2008. – Vol. 52, iss. 1. – P. 93–103. – DOI: 10.1147/rd.521.0093.
Boerner D. E. Controlled source electromagnetic deep sounding: theory, results and correlation with natural source results: Invited Review Paper for the 10th Workshop on EM Induction Ensenada Mexico // Surveys in Geophysics. – 1991. – Vol. 13. – P. 435–488.
Никитин А. А., Хмелевской В. К. Комплексирование геофизических методов: учебник для вузов. – Тверь: ГЕРС, 2004. – 294 с.
Гололобов Д. В. Взаимодействие электромагнитных волн и углеводородных залежей. – Мн.: Бестпринт, 2009. – 185 с.
Взаимодействие ЧМ-сигналов с анизотропной средой / Д. В. Гололобов [и др.] // Проблемы проектирования и производства радиоэлектронных средств: сб. материалов II Междунар. науч.-техн. конф. / г. Новополоцк (15–17 мая 2002 г.). – Новополоцк: ПГУ, 2002. – С. 300–303.
Moskvichew V. N. Interraction of electromagnetic waves (EMW) with anisotropic inclusion in communication line // 9th Microw. Conf. NICON – 91, Rydzyna, May 20–22, 1991. – Vol. 1. – P. 240–244.
Янушкевич В. Ф., Кременя К. И. Анализ двухволнового взаимодействия электромагнитных волн с анизотропными средами над углеводородными залежами // Мн.: Весці Нацыянальнай акадэміі навук Беларусі. Серыя фiзіка-тэхнічных навук. – 2015. – № 2. – С. 111–115.
Most read articles by the same author(s)
- V. YANUSHKEVICH, K. KREMENYA, M. IVANOV, T. MALADZECHKINA, INTERACTION OF ELECTROMAGNETIC WAVES WITH ANISOTROPIC ENVIRONMENTS OVER HYDROCARBONIC DEPOSITS IN THE MODE OF RADIO PULSE SIGNALS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2016)
- D. DAUHIALA, V. TIKHANOVICH, K. BABAMURATOV, COMMON-MODE AND DIFFERENTIAL CHOKES, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 1 (2024)
- V. YANUSHKEVICH, S. KALINTSEV, INFLUENCE OF CONCENTRATION OF PARTICLES OF MEDIUM ON HYDROCARBONS ON DISTRIBUTION OF RADIOIMPULSE SIGNALS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2018)
- V. LEVOSCHENKO, V. YANUSHKEVICH, FORMING APPARATUS DIGITAL RADIATION PATTERN, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2016)
- V. YANUSHKEVICH, S. KALINTSEV, K. SHPAK, REGULARITIES OF CHANGE IN PROPERTIES OF THE ANISOTROPIC MEDIUM OVER HYDROCARBONS FROM SENSING MODES, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 2 (2023)
- V. PITOLIN, N. KOLOSHKIN, K. BABAMURATOV, EFFICIENT USE OF STEAM THERMAL ENERGY, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 1 (2023)
- A. KARAS, V. YANUSHKEVICH, SIMULATION MICROSTRIP ANTENNA FREQUENCY RANGE OF 2300–2400 MHZ FOR TELECOMMUNICATIONS SYSTEMS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2016)
- V. YANUSHKEVICH, APPLICATION OF SEARCH FOR RADIOKOMPLEKSIROVANIYA ELECTRICAL INHOMOGENEITIES OF THE NATURAL ENVIRONMENT, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2017)
- V. YANUSHKEVICH, INFLUENCE OF THE ANISOTROPIC ENVIRONMENT PARAMETERS ON HYDROCARBONS ON THE DAMPING OF RADIO-PULSE SIGNALS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2017)
- V. YANUSHKEVICH, ELECTRODYNAMIC RESPONSE OF ANISOTROPIC MEDIUM OVER HYDROCARBONS TO THE INFLUENCE OF PROBING SIGNALS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 1 (2024)