A.G. Lebed’ko, G.I. Lebed’ko
Deep horizons of Kerchensky-Tamansky Petroleum District: future of commercial development
DOI 10.31087/0016-7894-2021-5-19-31
Key words: naturally fractured reservoir; prediction of prospects; vertical heat and mass transfer; reservoir model; Maikopsky claystone; oil and gas occurrence criteria; geophysical parameters; deep horizons; integral analysis.
For citation: Lebed’ko A.G., Lebed’ko G.I. Deep horizons of Kerchensky-Tamansky Petroleum District: future of commercial development. Geologiya nefti i gaza. 2021;(5):19–31. DOI: 10.31087/0016-7894-2021-5-19-31. In Russ.
The author shows that the share of hard-to-recover oils has significantly increased in the structure of Russian reserves. At the same time, the production of these raw materials is growing much slower than its share in the total volume of reserves. Such a disbalance especially typical of the mature producing regions leads to resource base decrease and deterioration. The authors discuss the conditions of carbonate deposits formation and structural features of the Domanic-Tournaisian oil and gas play within the studied areas of the Verkhnepechorsky transverse uplift. The authors discuss the most promising objects that have been identified using geological and geophysical data. Factors that contributed to trap formation in the study area in the Domanic-Famennian time are analyzed. To assess the resources, an advanced approach to predict initial potential resources was used taking into account calculation of hydrocarbon migration streams speed and range and probability of reaching a given depth interval. The authors present a typical workflow for hydrocarbon accumulations predicting, which can be used to assess the probability of charging a trap with hydrocarbons in certain depth interval. Based on interpretation of a significant volume of geological and geophysical material, the results of calculating the probability of trap charging within the Izjayusky structure are presented.
Aleksandr G. Lebed’ko
Candidate of Economic Sciences,
Senior Researcher
Southern Federal University «Institute of Earth Sciences»,
40, ul. Zorge, Rostov-on-don, 344058, Russia
e-mail: tiger.71@mail.ru
Gennadii I. Lebed’ko
Doctor of Geological and Mineralogical Sciences,
Chief Researcher
Southern Federal University «Institute of Earth Sciences»,
40, ul. Zorge, Rostov-on-don, 344058, Russia
e-mail: Lebedx100@gmail.com
1. Gavrilov V.P. Gas jets — new nontraditional hydrocarbon source. Geologiya nefti i gaza. 2014;(6):62–67. In Russ.
2. Lebedko G.I. Khadumites of the Northern Caucasus. Geologiya nefti i gaza. 2015;(4):45–54. In Russ.
3. Lebedko G.I. Oil and gas potential prospects of the Fore-Caucasus system of foredeeps. Geologiya nefti i gaza. 2011;(3):32–41. In Russ.
4. Vserossiiskii nauchno-issledovatel’skii geologicheskii institut im. A.P. Karpinskogo. Kartograficheskaya fabrika VSEGEI [A.P. Karpinsky Russian Geological Research Institute. VSEGEI Map Reproduction plant]. 2019; Avaliable at: https://vsegei.ru/ru/info/pub_ggk1000-3/Skifskaya/l-36_k-36.php (accessed on: 21.12.2020). In Russ.
5. Korolev S.N. Model’ glinistykh kollektorov nefti v otlozheniyakh nizhnego maikopa Vorob’evskogo mestorozhdeniya [Model of argillaceous oil reservoirs in the Lower Maikopsky deposits of the Vorobyovsky field]. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdenii. 2008;(6):41–46. In Russ.
6. Lebed’ko A.G., Lebed’ko G.I. Commercial potential of plugged and abandoned wells from unallocated fund of subsurface mineral resources in Southern Russia. Geologiya Nefti I Gaza. 2018;(5):95–103. DOI: 10.31087/0016-7894-2018-5-95-103. In Russ.
7. Yudin V.V. Potentsial’no neftegazonosnye struktury Predgornogo Kryma [Potentially oil and gas bearing structures of Crimea Piedmont]. In: Geodinamika i neftegazonosnye struktury Chernomorsko-Kaspiiskogo regiona: sbornik dokladov IV Mezhdunarodnoi konferentsii Krym-2002 (9–4 September, 2002, Gurzuf). Simferopol’, 2003. 271–279 pp. In Russ.