On the basis of the analysis of field thermogeochemical data along abnormal zones of a thermal stream in the Bukhara-Khiva, oil-and-gas region of the Turan (Tegermen, Chagakul, Shimoly Alat, Beshtepa) was succeeded to obtain important data on a deep structure of sites. Data of gas-chemical and geothermal observations show about confinedness of abnormal concentration of methane to zones of the increased values of the temperature field the measured values of temperatures (Tegermen Square and others). On geoelectric section mines 2-D of inversion of the MT-field depth of 4000 m are lower, among very high-resistance the chemogenic and carbonate deposits of the Paleozoic is traced the subvertical carrying-out abnormal zone. This zone is identified as the channel of a deep heat and mass transfer with which hydrocarbon (HC) deposits are connected. It is shown that electro-investigation when using a geophysical complex can and has to become “advancing” at exploration by oil and gas.
References
[1]
Abidov, A.A. and Dolgopolov F.G. (2004) Basic Model of the MixtGenetic Scheme of Natural Synthesis of Hydrocarbons. Reports of the Russian Academy of Sciences. No. 3.
[2]
Abidov, A.A., Dolgopolov, F.G. and Tilyabayev, Z. (2005) MixtGenetic Model of Formation of Oil and Gas in Crust. Materials of the Second International Conference “Geodynamics of Oil and Gas Bearing Basins”, Moscow, 19-21 October 2004, 36-42.
[3]
Abidov, A.A. (2010) Genesis of Oil and Gas and Technique of Search of Their Accumulation Site. Publishing House of Academy Sciencs of Uzbekistan, Tashkent, 258 p.
[4]
Khristoforova, N.N., Khristoforov, A.V. and Muslimov, R.K. (2000) Temperature Distribution and Anomalies in the Crystalline Basement of the Tataria Arch. Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy, 25, 597-604.
[5]
Gordiyenko, V.V., Gordiyenko, I.V. and Logvinov, I.M. (2007) The Thermal Field and Objects of High Conductivity in Bark and the Top Mantle of Ukraine. Physics of Earth, No. 4, 28-34.
[6]
Dobretsov, N.A. and Shatsky, A.F. (2012) Deep Cycle of Carbon and Deep Geodynamics: A Role of a Kernel and the Carbonatite of Fusions in the Lower Mantle. Geology and Geophysics, No. 11, 1455-1475.
[7]
Shlyakhovsky, V.A. (2010) Identification of Not Uniformity in a Lithosphere as Sources of a Formation of Deposits of HC. The Scientific and Technical Magazine of Georesurs, 2, 35-38.
[8]
Berdichevsky, M.N. and Dmitriyev, V.I. (2009) Models and Methods of a Magnetotellurics. Scientific World, Moscow, 680 p.
[9]
Korchagin, V.I., et al. (2002) Decontamination of Earth: Geodynamics, Geofluids, Oil and Gas. Materials of the International Conference, Moscow, 20-24 May 2002, 123-126.
[10]
Larin, V.N. (2005) Our Earth (Origin, Structure, Structure and Development of Initially Hydrogenium Earth). Agar, Moscow, 242 p.
[11]
Sheyin, V.S., et al. (1986) Geology and Geodynamics Oil and Gas of Areas of the South of the USSR. Works of Institute (VNIGNI), No. 255. Nedra, Moscow, 232 p.
[12]
Herndon, J.M. (2016) New Concept on the Origin of Petroleum and Natural Gas Deposits. Journal of Petroleum Exploration and Production Technology, 7, 341-352. https://doi.org/10.1007/s13202-016-0271-5
[13]
Bembel, P.M., Мegery, В.M. and Bembel, S.R. (2003) Geosolitons: Functional System of Earth, Concept of Investigation and Development of Fields of Hydrocarbons. II. 2nd Edition, Vector, Tyumen, 224.
[14]
Veliyev, G.O. (2002) Geodynamic Activity of Bowels of the Earth and Her Influence on a Section Oil-and-Gas Bearing. Geophysics, No. 5, 57-59.
[15]
Yuldashev, G.A. and Sorokotyaga, L.P. (2015) Ways of Increase in Efficiency of Electroprospecting Works When Forecasting Efficiency Revealed and Search of New Perspective Objects on East Part of the Fergana Hollow. The Bulletin of the National University (NUUZ), No. 3/1, 134-141.
[16]
Yuldashev, G.A. and Sorokotyaga, L.P. (2015) Identification of Structures of Complex Structure a Complex of Geophysical Surveys in the Beshkentsky Deflection. The Bulletin of the National University (NUUZ), No. 3/1, 141-146.
