Standard

Definition of carbonate reservoir structure by the technology of seismic scattered waves interpretation with the method of gaussian beams. / Petrov, D. A.; Melnik, A. A.; Shilikov, V. V. и др.

в: Neftyanoe khozyaystvo - Oil Industry, Том 2019, № January, 01.2019, стр. 6-10.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Petrov, DA, Melnik, AA, Shilikov, VV, Tuzovskiy, AA, Melnikov, RS, Volyanskaya, VV, Cheverda, VA & Protasov, MI 2019, 'Definition of carbonate reservoir structure by the technology of seismic scattered waves interpretation with the method of gaussian beams', Neftyanoe khozyaystvo - Oil Industry, Том. 2019, № January, стр. 6-10. https://doi.org/10.24887/0028-2448-2019-1-6-10

APA

Petrov, D. A., Melnik, A. A., Shilikov, V. V., Tuzovskiy, A. A., Melnikov, R. S., Volyanskaya, V. V., Cheverda, V. A., & Protasov, M. I. (2019). Definition of carbonate reservoir structure by the technology of seismic scattered waves interpretation with the method of gaussian beams. Neftyanoe khozyaystvo - Oil Industry, 2019(January), 6-10. https://doi.org/10.24887/0028-2448-2019-1-6-10

Vancouver

Petrov DA, Melnik AA, Shilikov VV, Tuzovskiy AA, Melnikov RS, Volyanskaya VV и др. Definition of carbonate reservoir structure by the technology of seismic scattered waves interpretation with the method of gaussian beams. Neftyanoe khozyaystvo - Oil Industry. 2019 янв.;2019(January):6-10. doi: 10.24887/0028-2448-2019-1-6-10

Author

Petrov, D. A. ; Melnik, A. A. ; Shilikov, V. V. и др. / Definition of carbonate reservoir structure by the technology of seismic scattered waves interpretation with the method of gaussian beams. в: Neftyanoe khozyaystvo - Oil Industry. 2019 ; Том 2019, № January. стр. 6-10.

BibTeX

@article{a89bf6238be94d078e459783ce2ce7f5,
title = "Definition of carbonate reservoir structure by the technology of seismic scattered waves interpretation with the method of gaussian beams",
abstract = "In last years, the share of hard-to-recover oil reserves, concentrated in low-permeability carbonate reservoirs, where fractures mainly provide permeability, is increasing significantly. To date, fields of this type are located on the territory of the Russian Federation in Eastern Siberia, the Timan-Pe-chora region, the Caucasus, etc. The difficulties in developing such reservoirs are due to the irregular distribution of fractures and caverns, which are the main ways of fluid filtration and form the basis of the capacitive space of the fracture reservoir type. Rosneft Oil Company implements an extensive innovative program, using a technology for separating scattered and reflected waves on the base of the Gaussian beam method which is developing in Corporate Research and Design Complex (RN-KrasnoyarskNIPIneft). The new technology has a high and uniform resolution, which makes it possible to obtain clear diffraction images of the fine structure of fractured-cavernous reservoirs. In this paper, we describe this technology. And present results of its verification on a synthetic model, describing a carbonate fractured-cavernous reservoir. Statistical characteristics of the model and corresponding images in scattered waves are compared, analyzed and discussed. The results prove, that some statistical characteristics are saved, in particular, the characteristic size of the heterogeneity of the near-fault zone. A systematic change in the parameters of the geological model was used to study how they display in seismic images by comparing their statistical characteristics. The application of the technology will increase the efficiency of the promotion of exploration and production drilling at the fields of Rosneft Oil Company with a difficult geological structure. First, it will be possible to reduce the geological risks associated with missed tectonic disturbances that limit the reservoir and directly affects the assessment of hydrocarbon reserves. Next, the technology allows localization of zones, associated with improved filtration and capacitance properties with high accuracy, which is of fundamental importance for geological modeling of complex reservoirs and subsequent successful drilling.",
keywords = "Carbonate reservoir, Faults, Gaussian beam, Seismic scattering wave, Seismic survey",
author = "Petrov, {D. A.} and Melnik, {A. A.} and Shilikov, {V. V.} and Tuzovskiy, {A. A.} and Melnikov, {R. S.} and Volyanskaya, {V. V.} and Cheverda, {V. A.} and Protasov, {M. I.}",
year = "2019",
month = jan,
doi = "10.24887/0028-2448-2019-1-6-10",
language = "English",
volume = "2019",
pages = "6--10",
journal = "Neftyanoe khozyaystvo - Oil Industry",
issn = "0028-2448",
publisher = "Neftyanoe Khozyaistvo",
number = "January",

}

RIS

TY - JOUR

T1 - Definition of carbonate reservoir structure by the technology of seismic scattered waves interpretation with the method of gaussian beams

AU - Petrov, D. A.

AU - Melnik, A. A.

AU - Shilikov, V. V.

AU - Tuzovskiy, A. A.

AU - Melnikov, R. S.

AU - Volyanskaya, V. V.

AU - Cheverda, V. A.

AU - Protasov, M. I.

PY - 2019/1

Y1 - 2019/1

N2 - In last years, the share of hard-to-recover oil reserves, concentrated in low-permeability carbonate reservoirs, where fractures mainly provide permeability, is increasing significantly. To date, fields of this type are located on the territory of the Russian Federation in Eastern Siberia, the Timan-Pe-chora region, the Caucasus, etc. The difficulties in developing such reservoirs are due to the irregular distribution of fractures and caverns, which are the main ways of fluid filtration and form the basis of the capacitive space of the fracture reservoir type. Rosneft Oil Company implements an extensive innovative program, using a technology for separating scattered and reflected waves on the base of the Gaussian beam method which is developing in Corporate Research and Design Complex (RN-KrasnoyarskNIPIneft). The new technology has a high and uniform resolution, which makes it possible to obtain clear diffraction images of the fine structure of fractured-cavernous reservoirs. In this paper, we describe this technology. And present results of its verification on a synthetic model, describing a carbonate fractured-cavernous reservoir. Statistical characteristics of the model and corresponding images in scattered waves are compared, analyzed and discussed. The results prove, that some statistical characteristics are saved, in particular, the characteristic size of the heterogeneity of the near-fault zone. A systematic change in the parameters of the geological model was used to study how they display in seismic images by comparing their statistical characteristics. The application of the technology will increase the efficiency of the promotion of exploration and production drilling at the fields of Rosneft Oil Company with a difficult geological structure. First, it will be possible to reduce the geological risks associated with missed tectonic disturbances that limit the reservoir and directly affects the assessment of hydrocarbon reserves. Next, the technology allows localization of zones, associated with improved filtration and capacitance properties with high accuracy, which is of fundamental importance for geological modeling of complex reservoirs and subsequent successful drilling.

AB - In last years, the share of hard-to-recover oil reserves, concentrated in low-permeability carbonate reservoirs, where fractures mainly provide permeability, is increasing significantly. To date, fields of this type are located on the territory of the Russian Federation in Eastern Siberia, the Timan-Pe-chora region, the Caucasus, etc. The difficulties in developing such reservoirs are due to the irregular distribution of fractures and caverns, which are the main ways of fluid filtration and form the basis of the capacitive space of the fracture reservoir type. Rosneft Oil Company implements an extensive innovative program, using a technology for separating scattered and reflected waves on the base of the Gaussian beam method which is developing in Corporate Research and Design Complex (RN-KrasnoyarskNIPIneft). The new technology has a high and uniform resolution, which makes it possible to obtain clear diffraction images of the fine structure of fractured-cavernous reservoirs. In this paper, we describe this technology. And present results of its verification on a synthetic model, describing a carbonate fractured-cavernous reservoir. Statistical characteristics of the model and corresponding images in scattered waves are compared, analyzed and discussed. The results prove, that some statistical characteristics are saved, in particular, the characteristic size of the heterogeneity of the near-fault zone. A systematic change in the parameters of the geological model was used to study how they display in seismic images by comparing their statistical characteristics. The application of the technology will increase the efficiency of the promotion of exploration and production drilling at the fields of Rosneft Oil Company with a difficult geological structure. First, it will be possible to reduce the geological risks associated with missed tectonic disturbances that limit the reservoir and directly affects the assessment of hydrocarbon reserves. Next, the technology allows localization of zones, associated with improved filtration and capacitance properties with high accuracy, which is of fundamental importance for geological modeling of complex reservoirs and subsequent successful drilling.

KW - Carbonate reservoir

KW - Faults

KW - Gaussian beam

KW - Seismic scattering wave

KW - Seismic survey

UR - http://www.scopus.com/inward/record.url?scp=85061980546&partnerID=8YFLogxK

U2 - 10.24887/0028-2448-2019-1-6-10

DO - 10.24887/0028-2448-2019-1-6-10

M3 - Article

AN - SCOPUS:85061980546

VL - 2019

SP - 6

EP - 10

JO - Neftyanoe khozyaystvo - Oil Industry

JF - Neftyanoe khozyaystvo - Oil Industry

SN - 0028-2448

IS - January

ER -

ID: 25773506