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Refining fault-block model of devonian sediments by aggregating seismic data and detailed correlation of well logs (deposits of samara region).
Petroleum geology, geophysics

Authors: Igor S. GUTMAN was born in 1933. He graduated from the Moscow Mining Institute in 1956. He is Professor of the Department of Petroleum Production Geology (since 1994) at Gubkin Russian State University of Oil and Gas, Director of the Institute of Design and Scientific Expertise of Oil and Gas Fields Development. He is author and co-author of over 170 scientific publications, including seven books, 6 monographs, and 5 reference-books. Е-mail: mail@ipne.ru
Gregory N. POTEMKIN was born in 1989. He graduated from Gubkin Russian State University of Oil and Gas, he is Master of Engineering and Technology. Presently he is graduate student and junior lecturer of the Department of Petroleum Production Geology at Gubkin Russian State University of Oil and Gas. Е-mail: gpotemkin@list.ru
Sergey P. PAPUHIN graduated from the Vakhrushev Sverdlovsk Mining Institute in 1982. He is Head of the Department of Audit of Reserves and Exploration Works of “Samaraneftegaz”, PhD, author of 25 publications. Е-mail: PapukhinSP@samng.ru

Abstract: Examples of faults identified by detailed correlation of the wells logs in the Devonian clastic sediments of an oil field of the Samara region are considered. The algorithm for refining the fault model based on direct and indirect methods is shown. The proposed model is consistent with the field data, which gives grounds to review certain aspects of the development system.

Index UDK: 550.812.14

Keywords: faults, detailed correlation, fault-block model, seismic studies

1. Voskresenskij Ju.N. Polevaja geofizika: uchebnik dlja vuzov. [Field geophysical exploration], Moscow, 2010, 479 p.
2. Mushin I.A., Korol’kov Yu.S., Chernov A.A. Vyyavlenie i kartirovanie diz"yunktivnykh dislokatsiy metodami razvedochnoy geofiziki. [Revelation and mapping of disjunctive dislocations by the methods of exploration geophysics], Moscow, 2001, 120 p.
3. Skripkin S.N. Automatic interpretation of structural and tectonic deformations on the basis of 3D seismic data. Trudy Rossiyskogo gosudarstvennogo universiteta nefti i gaza imeni I.M. Gub- kina [Proceedings of Gubkin Russian State University of Oil and Gas], Moscow, 2010, no. 1, pp. 18
4. Pedersen S.I, Randen T., Sonneland L. Automatic fault extraction using artificial ants. SEG Int’l Exposition and 72nd Annual Meeting, 2002.
5. Bochkarev A.V., Kalinina E.A., Bochkarev V.A. Fault-block system of Rakushechno-Shirotnaya lifting zone fields by seismic and log data. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy. [Geology, geophysics and development of oil and gas fields], Moscow, 2013, no. 4, pp. 4
6. Ampilov Yu.P. Ot seysmicheskoy interpretatsii k modelirovaniyu i otsenke mestorozhdeniy nefti i gaza. [From seismic interpretation to the modeling and estimation of oil and gas fields], Moscow, 2008, 384 p.
7. Metodicheskie rekomendatsii k korrelyatsii razrezov skvazhin. Under the editorship of prof. I.S. Gutman. [Methodic recommendations on the well-log correlation], Moscow, 2013, 112 p.
8. Gutman I.S., Potemkin G.N., Volk E.Yu., Papukhin S.P. Geological structure features of lower carbon faormations within the limits of Kama-Kinel depression system. Nedropol’zovanie XXI vek. [Subsurface resources management XXI century], Moscow, 2013, no. 5, 6.
9. Cosentino L. Intergrated reservoir studies. Paris, Editions TECHNIP, 2001. (Russ. ed. Kosentino L. Sistemnye podkhody k izucheniyu plastov, Moscow—Izhevsk, Institut komp’yuternykh issledovaniy, NITs “Regulyarnaya i khaoti-cheskaya dinamika”, 2007, 400 p.)
10. Gutman I.S., Rudnev S.A., Saakyan M.I., Danilenko A.N., Ursegov S.O., Prokusheva S.A. Parameters of Water Contents in High Viscous Oil of Permian Carbonate Reservoirs at Ussinskoye Field with the Features of its Geological Structure at the Basis of Well Cross section Detailed Correlation. Neft’. Gaz. Novatsii. [Oil. Gas. Innovations], Moscow, 2012, no. 3, pp. 30