Pages
Download article

Variability in the composition of hydrocarbon compounds in the Jurassic oil-and-gas-bearing strata of the Kamennaya crest of the Krasnoleninsky arch (Western Siberia)

M.S. Tikhonova, A.G. Kalmykov, D.A. Ivanova, O.N. Vidishcheva, I.O. Khomyachkova, M.A. Bolshakova, T.A. Ryazanova, R.S. Sautkin, G.A. Kalmykov

Original article

DOI https://doi.org/10.18599/grs.2021.2.16

158-169
rus.

open access

Under a Creative Commons license
The article presents the results of hydrocarbon compounds extracted from open pores and blocked by resinous-asphaltene compounds pores in the Tutleim formation rocks (a stratigraphic analogue of the Bazhenov formation) and the underlying Jurassic deposits on the territory of the Kamennaya crest of the Krasnoleninsky arch investigation. The aim of the work was both to study the possible migration of hydrocarbons along the section and area and to assess the variability of the bitumen composition in rocks relative to the structural plan of the area of interest, along the section, as well as unconventional reservoirs. It is shown that the structural features and the assumed additional heating of the rocks lead to variety in the hydrocarbons composition not only in open, but also in blocked pores, both through the area of Tutleim formation distribution and in different intervals of one well. It was established that in the sediments organic matter, which may slightly differ in nature within the formation, can accumulate, and this leads to some differences in the generation, accumulation and migration of hydrocarbon compounds processes. It is shown that the process of migration of hydrocarbons from the underlying sediments also affects the bitumen composition in the rocks of the Tutleim formation.
 

hydrocarbon compounds, tutleim formation, biomarker analisys, open pores, migration

 

  • Bilibin S.I., Kalmykov G.A., Ganichev D.I., Balushkina N.S. (2015). Model of the petroliferous rocks of the Bazhen Formation. The Russian Geophysics Journal, 3, pp. 5–14. (In Russ.)
  • Farrimond P., Bevan J.C., Bishop A.N. (1999). Tricyclic terpane maturity parameters: response to heating by an igneous intrusion. Organic Geochemistry, 30(8), pp. 1011–1019. https://doi.org/10.1016/S0146-6380(99)00091-1
  • Fomin A.N. (2004). Catagenetic conditions of oil and gas formation in the Paleozoic sediments of the West Siberian megabasin. Geology and Geophysics, 45(7), pp. 833–842. (In Russ.)
  • Hughes W.B., Holba A.G., Dzou L.I. (1995). The ratios of dibenzothiophene to phenanthrene and pristane to phytane as indicators of depositional environment and lithology of petroleum source rocks. Geochimica et Cosmochimica Acta, 59(17), pp. 3581–3598. https://doi.org/10.1016/0016-7037(95)00225-O
  • Kalmykov G.A., Balushkina N.S. (2017). Model of oil saturation of the pore space of rocks of the Bazhenov Formation in Western Siberia and its use for assessing the resource potential. Moscow: GEOS, 247 p. (In Russ.)
  • Khotylev O.V., Balushkina N.S., Vishnevskaya V.S. et al. (2019). A Model of the Accumulation of Radiolarite Layers in the Bazhenov Formation of West Siberia. Moscow University Geology Bulletin, 74(2), pp. 206–211. https://doi.org/10.3103/S0145875219020054
  • Kiryukhina T.A., Bolshakova M.A., Stoupakova A.V. et al. (2015). Lithological and geochemical characteristics of Domanik deposits of the Timan-Pechora basin. Georesursy = Georesources, 2(61), pp. 87–100. (In Russ.) https://doi.org/10.18599/grs.61.2.8
  • Kontorovich A.E., Kostyreva E.A., Rodyakin S.V. et al. (2018). Geochemistry of bitumoids of the Bazhenov formation. Geologiya Nefti i Gaza= Russian Oil And Gas Geology, 2, pp. 79–88. (In Russ.) https://doi.org/10.31087/0016-7894-2018-2-79-88
  • Kostenko O.V. (2014). Blocking character of distribution of high-molecular compounds of bitumen in the pore system of the Bazhenov formation (West Siberian basin). Neftegazovaya Geologiya. Theoria i praktika = Petroleum Geology - Theoretical and Applied Studies, 9(1), pp. 1–13. (In Russ.) https://doi.org/10.17353/2070-5379/12_2014
  • Lopatin N.V., Zubairaev S.L., Kos I.M. et al. (2003) Unconventional oil accumulations in the Upper Jurassic Bazhenov Black Shale Formation, West Siberian Basin: A selfsourced reservoir system. J. Petrol. Geology, 26(2), pp. 225–244. https://doi.org/10.1111/j.1747-5457.2003.tb00027.x
  • Mohnhoff D., Littke R., Krooss B., Weniger P. (2016). Flow-through extraction of oil and gas shales under controlled stress using organic solvents: implications for organic matter-related porosity and permeability changes with thermal maturity. International Journal of Coal Geology, 157, pp. 84–99. https://doi.org/10.1016/j.coal.2015.09.010
  • Peters K.E., Walters C.C., Moldowan, J.M. (2005). The biomarker guide. Cambridge University Press, 1155 p. https://doi.org/10.1017/CBO9780511524868
  • Price L.C., Clayton J.L. (1992). Extraction of whole versus ground source rocks: Fundamental petroleum geoche.mical implications including oil-source rock correlation. Geochimica et Cosmochimica Acta, 56(3), pp. 1213–1222. https://doi.org/10.1016/0016-7037(92)90057-P
  • Sajgó C.S., Maxwell J.R., Mackenzie A.S. (1983). Evaluation of fractionation effects during the early stages of primary migration. Organic Geochemistry, 5(2), pp. 65–73. https://doi.org/10.1016/0146-6380(83)90004-9
  • Schwark L., Stoddart D., Keuser C. et al. (1997). A novel sequential extraction system for whole core plug extraction in a solvent flow-through cell-application to extraction of residual petroleum from an intact pore-system in secondary migration studies. Organic Geochemistry, 26, pp. 19–31. https://doi.org/10.1016/S0146-6380(96)00163-5
  • Spiro B. (1984). Effects of mineral matrix on the distribution of geochemical markers in thermally affected sedimentary sequences. Organic Geochemistry, 6, pp. 543–559. https://doi.org/10.1016/0146-6380(84)90077-9
  • Stoupakova A.V., Fadeeva N.P., Kalmykov G.A. et al. (2015). Criteria for oil and gas search in domanic deposits of the Volga-Ural basin. Georesursy = Georesources, 2(61). pp. 77–86. (In Russ.) https://doi.org/10.18599/grs.61.2.7
  • Tao S., Wang C., Du J., et al. (2015). Geochemical application of tricyclic and tetracyclic terpanes biomarkers in crude oils of NW China. Marine and Petroleum Geology, 67, pp. 460–467. https://doi.org/10.1016/j.marpetgeo.2015.05.030
  • Tikhonova M.S., Ivanova D.A., Kalmykov A.G. et al. (2019). Methods of step extraction of rocks of high-carbon formations for the study of the component distribution of bitumen and variability of their basic geochemical parameters. Georesursy = Georesources, 21(2), pp. 2–10. (In Russ.) https://doi.org/10.18599/grs.2019.2.172-182
  • Wilhelms A., Horstad I., Karlsen D. (1996). Sequential extraction – a useful tool for reservoir geochemistry. Organic Geochemistry, 24, pp. 1157–1172. https://doi.org/10.1016/S0146-6380(96)00100-3
  •  

Margarita S. Tikhonova
Lomonosov Moscow State University
27, build. 1, Lomonosovsky ave., Moscow, 119192, Russian Federation
e-mail: m.tikhonova@oilmsu.ru

Anton G. Kalmykov
Lomonosov Moscow State University
1, Leninskie gory, Moscow, 119234, Russian Federation

Daria A. Ivanova
Lomonosov Moscow State University
27, build. 1, Lomonosovsky ave., Moscow, 119192, Russian Federation

Olesia N. Vidishcheva
National Intellectual Development Foundation
27, build. 1, Lomonosovsky ave., Moscow, 119192, Russian Federation

Inna O. Khomyachkova
Lomonosov Moscow State University
1, Leninskie gory, Moscow, 119234, Russian Federation

Maria A. Bolshakova
Lomonosov Moscow State University
1, Leninskie gory, Moscow, 119234, Russian Federation

Tatiana A. Ryazanova
Tyumen Oil Research Center LLC
42, Maxim Gorky str., Tyumen, 625048, Russian Federation

Roman S. Sautkin
Lomonosov Moscow State University
1, Leninskie gory, Moscow, 119234, Russian Federation

Georgy A. Kalmykov
Lomonosov Moscow State University
1, Leninskie gory, Moscow, 119234, Russian Federation

 

For citation:

Tikhonova M.S., Kalmykov A.G., Ivanova D.A., Vidishcheva O.N., Khomyachkova I.O., Bolshakova M.A., Ryazanova T.A., Sautkin R.S., Kalmykov G.A. (2021). Variability in the composition of hydrocarbon compounds in the Jurassic oil-and-gas-bearing strata of the Kamennaya crest of the Krasnoleninsky arch (Western Siberia). Georesursy = Georesources, 23(2), pp. 158–169. DOI: https://doi.org/10.18599/grs.2021.2.16