METHODS OF RADIO COMPLEXING IN SEARCHING FOR HYDROCARBONS
Article Sidebar
Main Article Content
Abstract
The article studies the characteristics of an anisotropic medium over hydrocarbons under the influence of a powerful low-frequency signal, a powerful high-frequency signal and radio pulse signals. The modeling of the components of the tensors of the dielectric constant and the surface impedance of the medium over hydrocarbon deposits has been carried out. The dependences of the real component of the dielectric constant on frequency are investigated for the modes of a powerful low-frequency signal, a powerful high-frequency signal. The characteristics of an anisotropic medium over hydrocarbon deposits for radio pulse signals from the carrier frequency and radio pulse duration are modeled. The dependences of the absolute, imaginary and phase characteristics of the surface impedance of an anisotropic medium over hydrocarbons are investigated. Recommendations are given for improving the methods of electrical prospecting and equipment for their implementation based on the use of radiocomplexing of electromagnetic methods of geological prospecting in order to increase the accuracy of determining the boundaries of oil and gas deposits and the information content of the considered electromagnetic methods of electrical prospecting. The research results can be applied for exploration geophysics.
Article Details
This work is licensed under a Creative Commons Attribution 4.0 International License.
References
Moskvichew, V. N. Interraction of electromagnetic waves (EMW) with anisotropic inclusion in communication line / V. N. Moskvichew // 9th Microw. Conf. NICON – 91, Rydzyna, May 20–22, 1991. – Vol. 1. – P. 240–244.
Frasheri, A. Self-potential anomaleies as possible indicators in search for oil and gas reservoirs / A. Fresheri // 57th EAGE Conf. and Tech. Exib., Glasgow, 29 May – 2 June 1995. – Glasgow, UK. – P. 8.
Anderson, C. An integrated approach to marine electromagnetic surveying using a towed streamer and source / C. Anderson, J. Mattsson // First Break. – 2010. – Vol. 28, iss. 5. – P. 71–75.
Helwig, S. L. Vertical–vertical controlled‐source electromagnetic instrumentation and acquisition / S. L. Helwig, W. Wood, B. Gloux // Geophysical Prospecting. – 2019. – Vol. 67. – № 6. – P. 1582–1594.
Гололобов, Д. В. Взаимодействие электромагнитных волн и углеводородных залежей / Д. В. Гололобов. – Минск : Бестпринт, 2009. – 185 с.
Subsalt imaging in Northern Germany using multi-physics (magnetotellurics, gravity, and seismic) / C. H. Henke [et al.] // Interpretatio.– 2020. – Vol. 8. – № 4. – P. 15–24.
Geldmacher, I. A Fit-for-purpose electromagnetic System for Reservoir Monitoring and Geothermal Exploration / I. Geldmacher, K. Strack // GRC Transactions. – 2017. – Vol. 41. – P. 1649–1658.
Янушкевич, В. Ф. Электромагнитные методы поиска и идентификации углеводородных залежей / В. Ф. Янушкевич. – Новополоцк, ПГУ, 2017. – 232 c.
Time lapse CSEM reservoir monitoring of the Norne field with vertical dipoles / T. Holten [et al.] // SEG Technical Program Expanded Abstracts. – 2016. – Vol. 35. – P. 971–975.
Оценка возможностей использования дистанционных технологий поиска полезных ископаемых при освоении углеводородных ресурсов на шельфах. Оптика атмосферы и океана / Н. И. Ковалев [и др.] // Добыча, подготовка, транспортировка нефти и газа : материалы III Всерос. конф., Томск, 20–24 сент. 2004 г. / Ин-т оптики атмосферы СО РАН. – Томск, 2004. – С. 67–70.
Сейсмические методы при разведке полезных ископаемых и планировании горных работ – Введение / А. Малехмир [и др.] // Геофизика. – 2012 г. – DOI: 10.1190 / 2012-0724-SPSEIN.1.
Бурцев, М. И. Поиски и разведка месторождений нефти и газа / М. И. Бурцев – М. : Рос. ун-т дружбы народов. –2006. – 264 с.
Effect of a powerful low-frequency signal on an anisotropic medium over hydrocarbon [Electronic resours] / V. F. Yanushkevich [et al] // J. of Physics : Conference Series. – 2021. – Vol. 1889. – Mode of access: https://iopscience.iop.org/article/10.1088/1742-6596/1889/2/022059/pdf/. – Date of access: 05.09.2021. –DOI:10.1088/1742-6596/1889/2/022059.
Констебл, С. Десять лет морской CSEM для разведки углеводородов / С. Констебл // Геофизика. – 2010. – Т. 75, № 5.
Райлян, И. Г. Новая российская спутниковая технология поиска местоположений нефти, газа и других полезных ископаемых / И. Г. Райлян // Нефть, газ и бизнес. – 2002. – № 6. – С. 20.
Гололобов, Д. В. Поиски, разведка и мониторинг залежей нефти, газа и угля радиоволновым методом / Д. В. Гололобов, А. А. Кураев, Ю. Н. Стадник // Геологической службе России 300 лет : тез. докл. междунар. геофиз. конф. /ВИРГ – Рудгеофизика ; А. А. Петров [и др.]. – СПб., 2005 г. – С. 171.
Adamovskiy, E. Simulation of electromagnetic waves interaction with hydrocarbon deposits / E. Adamovskiy, V. Yanushkevich // 8 Junior researchers conference European and national dimension in research : in 3 p. / PSU. – Novopolotsk : PSU, 2016. – Р. 3 : Technology. – Р. 179–183.
Степуленок, С. В. Взаимодействие амплитудно-частотно-модулированных сигналов со средой над углеводородными залежами / С. В. Степуленок, В. Ф. Янушкевич // Вестн. Полоц. гос. ун-та. Сер. С, Фундам. науки. –2009. – № 9. – С. 103–108.
Гололобов, Д. В. Импедансные граничные условия анизотропной среды для амплитудно-модулированного сигнала. // Д. В. Гололобов, В. Ф. Янушкевич, С. В. Калинцев / Доклады БГУИР. – Минск, 2010. – № 6 (52). – С. 13–17.
Most read articles by the same author(s)
- 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)
- 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, 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)
- K. KREMENIA, V. YANUSHKEVICH, RESEARCH OF DEPENDENCE OF THE PARAMETERS OF VIVALDI ANTENNA ARRAY WHEN CHANGING DISTANCE BETWEEN RADIATORS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2015)
- V. YANUSHKEVICH, S. KALINCEV, K. KREMENYA, E. ZAYATS, THE USE OF MODULATED SIGNALS TO SEARCH FOR THE PLASMA ANISOTROPIC MEDIA OF THIS TYPE, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 4 (2015)
- V. YANUSHKEVICH, K. KREMENYA, E. ZAYATS, IDENTIFICATION OF ANISOTROPIC PLASMA ENVIRONMENTS OF THIS TYPE, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 12 (2015)
- V. YANUSHKEVICH, METHODS OF COMPLEX USE OF ELECTROMAGNETIC WAVES FOR SEARCHING FOR HYDROCARBONS, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 2 (2024)
- V. YANUSHKEVICH, APPLICATION OF AMPLITUDE-FREQUENCY-MODULATED SIGNALS FOR HYDROCARBON SEARCH, Vestnik of Polotsk State University. Part C. Fundamental Sciences: No. 2 (2024)