Hydrocarbon traps in the geodynamic field

Authors: V.A. Karpov (Institute of Innovation Technologies and Methods of Subsurface Resources Management LLC, RF, Moscow)

Key words: tectonically dependent hydrocarbons traps, tectonic fractures, seimic, thermal, gravitational and magnetic fields, tectonic blender, oil and gas bearing capacity.

The majority of the hydrocarbons traps is tectonically dependent and influenced by the geodynamic field (its components). After geodynamic transformation, original primary traps changed to various degrees and formed secondary accumulations, both becoming seismogenic, which emphasizes connection between seismicity and hydrocarbons bearing capacity. Analysis of geodynamic field’s components should be directed at recognition of the tectonic blender, defining development of primary and secondary HC traps.

References

1. Trofimenko S.V., Struktura i dinamika geofizicheskikh poley i seysmicheskikh protsessov v blokovoy modeley zemnoy kory (Structure and dynamics of geophysical fields and processes in a seismic block models of the Earth's crust):Thesis of doctor of geological-mineralogical sciences, Tomsk, 2011.

2. Osika D.G., Formirovanie geokhimicheskikh anomaliy v predelakh seysmicheski aktivnykh oblastey i ikh obramleniy (primenitel'no k poiskam nefti i gaza) (Formation of geochemical anomalies within the seismically active regions and their frames (for searching oil and gas)):Thesis of doctor of geological-mineralogical sciences, 1990.

3. Ivanov A.Yu., Golubov B.N., Zatyagalova V.V., Issledovanie Zemli iz kosmosa, 2007, no. 2, pp. 62-81.

4. Karpov V.A., Nedropol'zovanie-XXI vek, 2011, no. 6, pp. 68-70; 2012, no. 1, pp. 74-78.

5. Karpov V.A., Koldashenko T.V., Cherevko T.A., Neftegazonosnost' zapadnykh rayonov Evropeyskoy chasti SSSR (The collection “ Oil and gas bearing of the western regions of European part of USSR”), Moscow: Publ. of VNIGNI, 1986, pp. 46-53.

6. Abukova L.A., Kartsev A.A., Otechestvennaya geologiya, 1999, no. 2, pp. 11-16.

7. Bembel' R.M., Megerya V.M., Bembel' S.R., Nedropol'zovanie-XXI vek, 2011, no. 5, pp. 72-75.

9. Bagdasarova M.V., Geologiya nefti i gaza - The journal Oil and Gas Geology, 2001, no. 3, pp. 50-56.

10. Karpov V.A., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 3, pp. 20-23.

11. Pat. №2377398 RU, Method of hydrocarbone field development, Inventors: Khisamov R.S., Ashchepkov Yu.S., Ashchepkov M.Yu., Muslimov R.Kh.

12. Parovyshnyy V.A., Veselov O.V., Senachin V.N., Kirienko V.S.,Tikhookeanskaya geologiya - Russian Journal of Pacific Geology, 2008, V. 27, no. 4, pp. 3-15.

13. Zapivalov N.P., Neftegazonosnost' akvatoriy mira: uchebnoe posobie (Oil and gas potential of world water areas: tutorial), Novosibirsk: Novosibirsk State University Press, 2009, 259 p.

Key words: tectonically dependent hydrocarbons traps, tectonic fractures, seimic, thermal, gravitational and magnetic fields, tectonic blender, oil and gas bearing capacity.

The majority of the hydrocarbons traps is tectonically dependent and influenced by the geodynamic field (its components). After geodynamic transformation, original primary traps changed to various degrees and formed secondary accumulations, both becoming seismogenic, which emphasizes connection between seismicity and hydrocarbons bearing capacity. Analysis of geodynamic field’s components should be directed at recognition of the tectonic blender, defining development of primary and secondary HC traps.

References

1. Trofimenko S.V., Struktura i dinamika geofizicheskikh poley i seysmicheskikh protsessov v blokovoy modeley zemnoy kory (Structure and dynamics of geophysical fields and processes in a seismic block models of the Earth's crust):Thesis of doctor of geological-mineralogical sciences, Tomsk, 2011.

2. Osika D.G., Formirovanie geokhimicheskikh anomaliy v predelakh seysmicheski aktivnykh oblastey i ikh obramleniy (primenitel'no k poiskam nefti i gaza) (Formation of geochemical anomalies within the seismically active regions and their frames (for searching oil and gas)):Thesis of doctor of geological-mineralogical sciences, 1990.

3. Ivanov A.Yu., Golubov B.N., Zatyagalova V.V., Issledovanie Zemli iz kosmosa, 2007, no. 2, pp. 62-81.

4. Karpov V.A., Nedropol'zovanie-XXI vek, 2011, no. 6, pp. 68-70; 2012, no. 1, pp. 74-78.

5. Karpov V.A., Koldashenko T.V., Cherevko T.A., Neftegazonosnost' zapadnykh rayonov Evropeyskoy chasti SSSR (The collection “ Oil and gas bearing of the western regions of European part of USSR”), Moscow: Publ. of VNIGNI, 1986, pp. 46-53.

6. Abukova L.A., Kartsev A.A., Otechestvennaya geologiya, 1999, no. 2, pp. 11-16.

7. Bembel' R.M., Megerya V.M., Bembel' S.R., Nedropol'zovanie-XXI vek, 2011, no. 5, pp. 72-75.

9. Bagdasarova M.V., Geologiya nefti i gaza - The journal Oil and Gas Geology, 2001, no. 3, pp. 50-56.

10. Karpov V.A., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 3, pp. 20-23.

11. Pat. №2377398 RU, Method of hydrocarbone field development, Inventors: Khisamov R.S., Ashchepkov Yu.S., Ashchepkov M.Yu., Muslimov R.Kh.

12. Parovyshnyy V.A., Veselov O.V., Senachin V.N., Kirienko V.S.,Tikhookeanskaya geologiya - Russian Journal of Pacific Geology, 2008, V. 27, no. 4, pp. 3-15.

13. Zapivalov N.P., Neftegazonosnost' akvatoriy mira: uchebnoe posobie (Oil and gas potential of world water areas: tutorial), Novosibirsk: Novosibirsk State University Press, 2009, 259 p.


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