Новосибирск, Новосибирская область, Россия
Новосибирский государственный университет
Новосибирск, Россия
ВАК 1.6 Науки о Земле и окружающей среде
УДК 552.578.2.061.3 Теории генезиса нефти и газа
УДК 553.98 Месторождения углеводородов. Нефтегазоносность
УДК 55 Геология. Геологические и геофизические науки
УДК 550.34 Сейсмология
УДК 550.383 Главное магнитное поле Земли
ГРНТИ 38.53 Геология месторождений нефти, газа и конденсатов
ГРНТИ 37.01 Общие вопросы геофизики
ГРНТИ 37.15 Геомагнетизм и высокие слои атмосферы
ГРНТИ 37.25 Океанология
ГРНТИ 37.31 Физика Земли
ГРНТИ 38.01 Общие вопросы геологии
ГРНТИ 36.00 ГЕОДЕЗИЯ. КАРТОГРАФИЯ
ГРНТИ 37.00 ГЕОФИЗИКА
ГРНТИ 38.00 ГЕОЛОГИЯ
ГРНТИ 39.00 ГЕОГРАФИЯ
ГРНТИ 52.00 ГОРНОЕ ДЕЛО
ОКСО 21.02.10 Геология и разведка нефтяных и газовых месторождений
ОКСО 05.00.00 Науки о Земле
ББК 263 Геологические науки
ББК 26 Науки о Земле
ТБК 63 Науки о Земле. Экология
BISAC SCI031000 Earth Sciences / Geology
BISAC SCI SCIENCE
The most important element of the structure of hydrocarbon resources is their distribution by accumulations of different sizes. The formalism of this direction is developed in detail. Estimates of the resource structure of the largest oil and gas provinces of Russia are carried out. However, the lack of a substantiated theoretical model for the formation of the distribution of accumulations by size gives rise to a number of problems, including practical ones. This concerns the forecast of the number of small accumulations and hydrocarbon resources concentrated in them in well-studied oil and gas systems, the forecast of distribution for poorly studied systems, and the identification of the relationship between distribution parameters and the geological characteristics of the oil and gas system. The explanation of some empirically established regularities, in particular, the stable nature of the value of the λ ~ 2 distribution parameter, is of independent theoretical interest. The paper presents the current state of this complex of problems and some possible directions for their solution.
oil and gas system, structure of hydrocarbon resources, distribution by size of deposits, truncated Pareto distribution.
1. Arps J. J., Roberts T. G. Economics of Drilling for Cretaceous Oil on East Flank of Denver-Julesburg Basin // AAPG Bulletin. — 1958. — Vol. 42, no. 11. — P. 2549–2566. — DOI:https://doi.org/10.1306/0BDA5BF7-16BD-11D7-8645000102C1865D.
2. Burshtein L. M. Possible control of size distribution of oil and gas fields // Geology and geophysics. — 2004. — No. 7. — P. 815–825. — (In Russian).
3. Burshtein L. M. Statistical estimation of parameters of size distribution of oil accumulations in poorly studied sedimentaru basins // Geology and geophysics. — 2006. — No. 9. — P. 1013–1023. — (In Russian).
4. Kaufman G. M. Statistical Decision and Related Techniques in Oil and Gas Exploration. — Prentice-Hall, 1963.
5. Kontorovich A. E., Demin V. I. Method for assessing the quantity and distribution of oil and gas deposits in large oil and gas basins // Oil and gas geology. — 1977. — No. 12. — P. 18–26. — (In Russian).
6. Kontorovich A. E., Demin V. I. Prognosis of the number and distribution of the oil and gas fields in respect to their rezerves // Geologiya i geofizika. — 1979. — Vol. 20, no. 3. — P. 26–46. — (In Russian).
7. Kontorovich A. E., Burshtein L. M., Gurevich G. C., et al. Quantitative assessment of the prospects of oil and gas content of poorly detected regions. — Moscow : Nedra, 1988. — 223 p. — (In Russian).
8. Kontorovich A. E., Livshits V. R. New methods of assessment, structure, and development of oil and gas resources of mature petroleum provinces (Volga-Ural province) // Russian Geology and Geophysics. — 2017. — Vol. 58, no. 12. — P. 1453–1467. — DOI:https://doi.org/10.1016/j.rgg.2017.11.010.
9. Kontorovich A. E., Livshits V. R., Burshtein L. M., et al. Assessment of the Initial, Promising, and Predicted Geologic and Recoverable Oil Resources of the West Siberian Petroleum Province and Their Structure // Russian Geology and Geophysics. — 2021. — Vol. 62, no. 5. — P. 576–588. — DOI:https://doi.org/10.2113/rgg20204302.
10. Livshits V. R. Lateral migration of hydrocarbons as a possible mechanism of origin of their power-law distribution by mass // Russian Geology and Geophysics. — 2017. — Vol. 58, no. 3/4. — P. 299–309. — DOI:https://doi.org/10.1016/j.rgg.2016.09.006.
11. Shpilman V. I. Methods for predicting the size of deposits // Proceedings of the Institute of Zap-SibNIGNI. — 1972. — Vol. 53. — P. 118–126. — (In Russian).
