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Indicative features of local magnetic anomalies from hydrocarbon deposits: examples from Azerbaijan and Ukraine

Warianty tytułu
Języki publikacji
Magnetic surveys are one of the most mobile and low-cost geophysical methods. However, direct searching of hydrocarbon deposits by the magnetic method was questioned for a long time because of the virtual absence of the magnetic properties of oil and gas. Last investigations indicate that physical–chemical reactions of hydrocarbon deposits with the host media often create precursors for detecting directly magnetic signals from the oil and gas deposits even in the cases of large depths. Extraction of low-signal magnetic anomalies generated by hydrocarbon deposits is demonstrated on examples of several deposits from the Middle Kur Depression (Azerbaijan) and Dnieper-Donets Depression (Ukraine). Application of the proposed magnetic data analysis will allow not only to optimize hydrocarbon deposit searching in complex geological environments but also to decrease the number of prospecting boreholes.
Opis fizyczny
Bibliogr. 70 poz.
  • “OilGasScientificResearchProject” Institute of the State Oil Company of Azerbaijan Republic (SOCAR), Baku, Azerbaijan
  • Department of Geosciences, Faculty of Exact Sciences, Tel Aviv University, Tel Aviv, Israel,
  • Carpathian Branch of Subbotin Institute of Geophysics of the National Academy of Sciences of Ukraine, Lviv, Ukraine
  • Taras Shevchenko National University of Kiev, Kiev, Ukraine
  • Geophysics and Geology Department of SOCAR , Baku, Azerbaijan
  • 1. Abdulabekov KP, Golovkov VP (1974) Geomagnetic field changing and processes in the Earth’s crust. Izvesiya Acad Sci USSR Ser Phys Earth (3):93–100
  • 2. Aldana M, Costanzo-Alvarez V, Bolivar S, Diaz M (2003) Magnetic and mineralogical studies to characterize oil reservoirs in Venezuela. Lead Edge (6):526–529
  • 3. Alizadeh AM, Guliyev IS, Kadirov FA, Eppelbaum LV (2017) Geosciences of Azerbaijan. Volume II: economic minerals and applied geophysics. Springer, Heidelberg
  • 4. Bagin VI, Malumyan LM (1976) Iron-containing minerals in oil-impregnated sedimentary rocks of the productive series of Azerbaijan. Izvestiya Acad Sci USSR Phys Earth (4):73–79
  • 5. Berezkin VM, Loshakov AI, Nikolaev MI (1982) Application of magnetic prospecting for searching oil and gas deposits. Appl Geophys (Prikladnaya Geofizika), Moscow (103):128–136 (in Russian)
  • 6. Berezkin VM, Filatov VG, Ovsepyan ML (1998) Geomagnetic model of hydrocarbons field and identify of local magnetic anomalies of epigenetic mineralization on the background of geological and industrial noise. Appl Geophys (Prikladnaya Geofizika), Moscow 132:156–164 (in Russian)
  • 7. Bezukladnov VA, Mavrichev VG (1997) Identification of anomalies such a “deposit” by use magnetic field analysis. Geol Oil Gas (7): 21–24 (in Russian)
  • 8. Cisowski SM, Fuller M (1987) The generation of magnetic anomalies by combustion metamorphism of sedimentary rock and its significance to hydrocarbon exploration. Geol Soc Am Bull 99:21–29
  • 9. Donovan TJ, Hendricks JD, Roberts AA, Eliason PT (1984) Low altitude aeromagnetic reconnaissance for petroleum in the Arctic National Wildlife Refuge. Geophysics 49(8):1338–1353
  • 10. Elmore RD, Engel MH, Crawford KN, Imbus S, Sofer Z (1987) Evidence for a relationship between hydrocarbon and authigenic magnetite. Nature 325:6103–6106
  • 11. Emmerton S, Muxworthy AR, Sephton MA (2012) Magnetic characterization of oil sands at Osmington mills and Mupe bay, Wessex Basin. Geol Soc Spec Publ, London 371(1):189–198
  • 12. Eppelbaum LV (2015a) Quantitative interpretation of magnetic anomalies from bodies approximated by thick bed models in complex environments. Environ Earth Sci 74:5971–5988
  • 13. Eppelbaum LV (2015b) Quantitative interpretation of magnetic anomalies from thick bed, horizontal plate and intermediate models under complex physical-geological environments in archaeological prospection. Archaeol Prospect 23(2):255–268
  • 14. Eppelbaum LV, Khesin BE (2012) Geophysical studies in the caucasus. Springer, Heidelberg
  • 15. Eppelbaum LV, Mishne AR (2011) Unmanned airborne magnetic and VLF investigations: effective geophysical methodology of the near future. Positioning 2(3):112–133
  • 16. Eppelbaum LV, Khesin BE, Itkis SE (2001) Prompt magnetic investigations of archaeological remains in areas of infrastructure development: Israeli experience. Archaeol Prospect 8(3):163–185
  • 17. Eppelbaum L, Ben-Avraham Z, Katz Y (2004) Integrated analysis of magnetic, paleomagnetic and K-Ar data in a tectonic complex region: an example from the Sea of Galilee. Geophys Res Lett.
  • 18. Eventov L (1997) Applications of magnetic methods in oil and gas exploration. Lead Edge (3):489–497
  • 19. Foote RS (1992) Use of magnetic field aids oil search. Oil&Gas J (4):137–142
  • 20. Foote RS (1996) Relationship of near-surface magnetic anomalies to oil and gas producing areas. In: AAPG Memoir 66 “hydrocarbon migration and its near surface expression”, pp 111–126
  • 21. Gadirov VG (1994) The physical-geological principles of application of gravity and magnetic prospecting in the search of oil and gas deposits. In: Proceedings of the 10th petroleum congress and exhibition of Turkey. Ankara, pp 197–203
  • 22. Gadirov VG (1996) Some foundations of magnetic prospecting employment for searching hydrocarbon deposits in the Middle Kur Depression. Azerbaijan Oil Ind (6):7–10 (in Russian)
  • 23. Gadirov VG (1997) The problem of interpreting local gravity and magnetic anomalies in oil and gas fields. Geophys News Azerbaijan 4:23–24
  • 24. Gadirov VG (2002) Gravity-magnetic studies of buried volcanogenic rocks in the in the Middle Kur Depression in connection with their oil&gas bearing. Azerbaijan’s Geol (7):130–141 (2002)
  • 25. Gadirov VG (2009) Results of application of gravity and magnetic prospecting for prognosis of oil and gas deposits in the Kur Depression of Azerbaijan. Geophysics (Geofizika), Moscow (2):51–56 (in Russian)
  • 26. Gadirov VG (2012) Integration of gravity and magnetic prospecting for searching oil and gas deposits in Azerbaijan. Geophysics (Geofizika), Moscow (6):73–77 (in Russian)
  • 27. Gadirov VG (2013) Application of magnetic prospecting for searching oil and gas on the perspective areas of Azerbaijan. Geophys J, Kiev 35(6):182–189
  • 28. Gadirov VG, Eppelbaum LV (2012) Detailed gravity, magnetic successful in exploring Azerbaijan onshore areas. Oil&Gas J (5):60–73
  • 29. Gay SP (1992) Epigenetic versus syngenetic magnetite as a cause of magnetic anomalies. Geophysics 57:60–68
  • 30. Gay SP, Hawley BW (1991) Syngenetic magnetic anomaly sources: three examples. Geophysics 56(7):902–913
  • 31. Hinze WJ, Von Vrese RRB, Saad AH (2013) Gravity and magnetic exploration: principles, practices and application. Cambridge University Press, Cambridge
  • 32. Khesin BE, Alexeyev VV, Eppelbaum LV (1996) Interpretation of geophysical fields in complicated environments. Modern approaches in geophysics. Springer, Boston
  • 33. Klueglein N, Sekann-Behrens T, Obst M, Behrens S, Appel E, Kappler A (2013) Magnetite formation by the novel Fe(III)-reducing Geothrix fermentans Strain HradG1 isolated from a hydrocarbon-contaminated sediment with increased magnetic susceptibility. Geomicrobiol J (30):863–873
  • 34. Kuderavets RS, Maksymchuk VYu, Horodys’kyy YuM (2009) Geomagnetic models of hydrocarbon deposits and perspective structures of the central part of the Dnipro-Donets Depression. Sci Bull Ivan-Frankivsk Natl Tech Univ Oil Gas 1(19):73–81 (in Ukrainian)
  • 35. Kuderavets RS, Maksymchuk VYu, Chobotok IO, Klymkovych TA, Tymoschuk VR, Pyrizhok NB (2013) Practice of magnetic surveys over hydrocarbon fields in the Carpathian foredeep, Ukraine. Geodynamics, Kiev 2(15):186–188 (in Russian)
  • 36. Laktionova TN, Medvedev VV, Savchenko KV, Bigun ON, Nakis’ko SG, Sheyko SN (2015) Ukrainian soil properties Database and its application. Agric Sci Pract 2(3):3–8
  • 37. Lapshov VA (1975) Additional criteria in employment of magnetometric data by searching hydrocarbon deposits. Oil Coal Geol (3):24–28 (in Russian)
  • 38. LeSchack LA, Van Alstin DR (2002) High-resolution ground-magnetic (HRGM) and radiometric surveys for hydrocarbon exploration: six case histories in Western Canada. In: Schumacher D, LeSchack LA (eds) Surface exploration case histories: applications of geochemistry, magnetics and remote sensing. AAPG Studies in Geology, 48(11):67–156
  • 39. Liu QS, Chan L, Liu Q, Li H et al (2004) Relationship between magnetic anomalies and hydrocarbon microseepage above the Jingbian gas field, Ordos basin, China. AAPG Bull. 88(2):241–251
  • 40. Liu Q, Cui Z, Etsell TH (2006) Characterization of Athabasca oil sands froth treatment tailings for heavy mineral recovery. Fuel 85(5–6):807–814
  • 41. Lukin AE (2017) The Earth outgasing, naphtidogenesis and petroleum potential. Collection of scientific works of UkrDGRI 3:9–33 (in Russian)
  • 42. Machel HG (2001) Bacterial and thermochemical sulfate reduction in diagenetic settings—old and new insights. Sed Geol 14:143–175
  • 43. Machel HG, Burton EA (1991a) Causes and spatial distribution of anomalous magnetization in hydrocarbon seepage environments. AAPG Bull 75:1864–1876
  • 44. Machel HG, Burton EA (1991b) Chemical and microbial processes causing anomalous magnetization in environments affected by hydrocarbon seepage. Geophysics 56:598–605
  • 45. Maevski BY, Babko IM (2006) On the issue of the prospects of oil and gas content in the central part of the Dnieper-Donets basin (taking into account the experience of work in various basins of the world. Prospect Exploit Oil Gas Depos 18(1):78–81 (in Ukrainian)
  • 46. Maher BA, Thompson R (1991) Mineral magnetic record of the Chinese loess and paleosols. Geology 19:3–6
  • 47. Maksymchuk VYu, Kuznetsova VG, Chobotok IO (1999) Experience of using precise magnetometry for searching hydrocarbon deposits. Collection of Papers, Ukraine Academy of Science, Geophysics 3(6):154–158 (in Ukrainian)
  • 48. Maksymchuk V, Gorodiskyi Yu, Kuznetsova V (2001) Dynamics of the earth’s anomalous magnetic field. Eurosvit, L’vov (in Ukrainian)
  • 49. Maksymchuk VYu, Kuderavets RS, Gorodyskyy JM, Gaupp R (2007) Anomalous magnetic field and rocks magnetic features in the Pryrichna gas-condensate deposit. Prospect Dev Oil Gas Fields 1(22):19–30 (in Ukrainian)
  • 50. Mamedov SG, Gadirov VG (1982) Application of precise gravity and magnetic prospecting for searching local structures and prognosis щa zones of development of oil&gas collectors in the south-west part of the Evlakh-Agdzhabedy Depression. Report 313-81, Baku, pp 1–136
  • 51. Mavrichev VG (1997) Airborne magnetic prospecting on the regional stage of studying perspective hydrocarbon areas. Homeland Geol (12):34–39 (in Ukrainian)
  • 52. Mavrichev VG, Kozeyev SI, Petrova AA, Antonov KV, Shadrin VF (2002) Airborne geophysics for prognosis of oil&gas bearing of ancient rocks. Interval (3):64–69 (in Russian)
  • 53. Menshov AI, Kuderavets RS, Chobotok IA (2014) Examination of magnetic field and magnetic susceptibility in areas of hydrocarbons exploration in the Carpathian Foredeep. In: Transmission of the 13th international conference on geoinformatics: theoretical and applied aspects, 12–15 May, Kiev, Ukraine (in Russian)
  • 54. Menshov O, Kuderavets R, Vyzhva S, Chobotok I, Pastushenko T (2015) Magnetic mapping and soil magnetometry of hydrocarbon prospective areas in western Ukraine. Stud Geophys Geod 59(4):614–627
  • 55. Nettleton LL (1976) Gravity and magnetics in oil prospecting. McGraw-Hill, New York
  • 56. Orlyuk MI, Maksymchuk VE, Vakarchuk GI, Chepil’ PM (1998) Magnetometric studies with regional and local prognosis of oil and gas potential of the Earth’s Crust in the Dniepr-Donets basin. Geophys J (3):92–102 (in Russian)
  • 57. Perez-Perez A, D’Onofrio L, Bosch M, Zapata E (2011) Association between magnetic susceptibilities and hydrocarbon deposits in the Barinas-Apure Basin, Venezuela. Geophysics 76(6):35–41
  • 58. Pirson SJ (1971a) New electric technique can locate gas and oil. World Oil 172(5, Part 1):69–72
  • 59. Pirson SJ (1971b) New electric technique can locate gas and oil. World Oil 172(6, Part 2):72–74
  • 60. Porsch K, Rijal M, Borch T, Troyer L, Behrens S, Wehland F, Appel E, Kappler A (2014) Impact of organic carbon and iron bioavailability on the magnetic susceptibility of soils. Geoch Cosmoch Acta 128:44–57
  • 61. Putikov OA, Veshev SA, Voroshilov NA, Alekseyev SG, Tzyun Ch, Kasyankova NA (2000) “Jet” scattering halos over oil and gas deposits in heterogeneous rocks. Geophysics (Geofizika), Moscow (1):52–56 (in Russian)
  • 62. Salekhli TM (1979) Regularities of physical parameters changing in sections of Kura Depression and their relationships with epigenetic processes. Deposited in the VINITI USSR Academy of Science, No. 2828-79 Dep.: 1–32 (in Russian)
  • 63. Saunders DF, Burson KR, Thompson CK (1991) Observed relation of soil magnetic susceptibility and soil gas hydrocarbon analysis to subsurface petroleum accumulations. AAPG Bull 75:389–408
  • 64. Saunders DF, Burson KR, Thompson CK (1999) Model for hydrocarbon microseepage and related near-surface alterations. AAPG Bull 83(1):170–185
  • 65. Schumacher D (2010) Non-seismic detection of hydrocarbons. In: Transmission of the AAPG European region annual conference, Kiev, Ukraine, October 17–19, 2010. Last visited on 15 July 2018
  • 66. Schumacher D, Abrams M (1996) Hydrocarbon migration and its near-surface expression. AAPG Memoir 66
  • 67. Seifulin RS (1980) Relationship of thermal and magnetic anomalies over hydrocarbon deposits with natural electric fields. Oil Gas Geol Geophys (8):42–43 (in Russian)
  • 68. Suvorov VV (1989) On the nature of magnetic anomalies over hydrocarbon structures. In: Geophysical methods of searching and prospecting of oil and gas deposits. Perm’, Russia, pp 58–63
  • 69. Ulmishek GF (2001) Petroleum geology and resources of the Dnieper-Donets Basin, Ukraine and Russia. US Geol Surv Bull 2201-E:1–17
  • 70. Ustinova VN (2002) Hydrocarbon deposits and peculiarities of their appearing in geophysical fields. Geofizika (Geophysics) (5):25–31 (in Russian)
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
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