Glinskikh V.N.

GlinskikhVN@ipgg.sbras.ru




Graduated from Novosibirsk State University, Bachelor of Geology (1998), Master of Geology (1999).
PhD in Physics and Mathematics, professor of the Russian Academy of Sciences, associate professor of the Novosibirsk State University.
Head of laboratory of borehole geophysics, IPGG SB RAS.
Area of scientific interest: the theory of electrical and electromagnetic sounding of geological media, numerical methods for solving direct and inverse problems of electrodynamics, modeling and interpretation of wellbore electronometry data, geophysical methods for studying oil and gas wells, parallel calculations on graphic processors in logging problems. Has 175 publications and 9 patents.
Stratigraphy and lithology
Section editor – PhD in geology and mineralogy Kirichkova A.I.
Article # 15_2018 submitted on 04/10/2018 displayed on website on 05/11/2018
19 p.
pdf  Relative content of rock-building components and basic lithological types of rocks of the Bazhenov Formation and its stratigraphic analogues according to log and core data
At present, there is no general theoretical and methodological basis for complex processing of log data of the Bazhenov Formation, including the lithological interpretation. The paper is devoted to the development of the methodology for lithological interpretation of log data (SKL complexes) in the intervals of non-traditional reservoirs of the Bazhenov Formation. According to logs, taking into account the results of lithological and geochemical studies of core samples, volumetric models of the relative content of the rock-building components of the Bazhenov Formation and the Lower Tutlem Formation were constructed in the sections of more than three dozen wells in the central regions of the Western Siberia. On the basis of the new rocks classification of the Bazhenov Formation, the main lithological types are highlighted by the ratio of the four rock-buiding components. A scheme for the correlation of the sections of the Bazhenov Formation and the Lower Tutlem Formation was constructed for volumetric models and selected lithological rock types, and features of the lateral structure alteration were noted.

Keywords: Bazhenov Formation, log data, SKL complex, lithological interpretation, rock-building components, lithological type rock, correlation schemes, Western Siberia.
article citation Fedoseev A.A., Glinskikh V.N., Kazanenkov V.A. Otnositel'noe soderzhanie porodoobrazuyushchikh komponentov i osnovnye litologicheskie tipy porod bazhenovskoy svity i ee stratigraficheskikh analogov po dannym geofizicheskikh issledovaniy skvazhin i kerna [Relative content of rock-building components and basic lithological types of rocks of the Bazhenov Formation and its stratigraphic analogues according to log and core data]. Neftegazovaya Geologiya. Teoriya I Praktika, 2018, vol. 13, no. 2, available at: http://www.ngtp.ru/rub/2/15_2018.pdf
DOI https://doi.org/10.17353/2070-5379/15_2018
References
   Balushkina N.S., Kalmykov G.A., Belokhin V.S., Khamidullin R.A., Korost D.V. Kremnistye kollektory bazhenovskogo gorizonta Sredne-Nazymskogo mestorozhdeniya i struktura ikh pustotnogo prostranstva [Siliceous reservoirs of the Bazhenov Formation of the Sredne-Nazym field and their open space structure]. Vestnik Moskovskogo universiteta. Seriya 4. Geologiya, 2014, no. 2, p. 35-43.
   Belkin V.I., Efremov E.P., Kaptelinin N.D. Stroenie i neftenosnost' bazhenovskogo rezervuara [The structure and oil content of the Bazhenov reservoir]. Litologiya i poleznye iskopaemye, 1985, no.2, p. 108-123.
   Braduchan Yu.V., Bulynnikova S.P., Vyachkileva N.P., Gol'bert A.V., Gurari F.G., Zakharov V.A., Klimova I.G., Kozlova G.E., Lebedev A.I., Mesezhnikov M.S., Nal'nyaeva T.I., Turbina A.S. Bazhenovskiy gorizont Zapadnoy Sibiri (stratigrafiya, paleogeografiya, ekosistema, neftenosnost') [Bazhenov Formation of Western Siberia (stratigraphy, paleogeography, ecosystem, oil content)]. Novosibirsk: Nauka, 1986, no. 649, 215 p.
   Dobrynin V.M. Problemy kollektora nefti v bituminoznykh glinistykh porodakh bazhenovskoy svity [Problems of the oil collector in bituminous clay stones of the Bazhenov Formation]. Izvestiya AN SSSR. Seriya Geologiya, 1982, no.3, p. 120-127.
   Dorofeeva T.V., Krasnov S.G., Lebedev V.A., Petrova G.V., Pozinenko B.V. Kollektory nefti bazhenovskoy svity Zapadnoy Sibiri [The oil reservoirs of the Bazhenov Formation of Western Siberia]. Leningrad: Nedra, 1983, 131 p.
   Doveton J.H. Geologic Log Analysis Using Computer Methods. Tulsa: The American Association of Petroleum Geologists, 1994, 169 p.
   Eder V.G., Zamiraylova A.G., Zanin Yu.N. Osobennosti litologicheskogo stroeniya bazhenovskoy svity v razlichnykh rayonakh Zapadno–Sibirskoy geosineklizy [Features of the lithological structure of the Bazhenov Formation in various regions of the West Siberian geosyneclise]. Interekspo Geo–Sibir', 2012, vol. 2, no.1, p. 37-41.
   Enikeev B.N. Sistemnyy podkhod k statisticheskoy interpretatsii geofizicheskikh dannykh v zadachkakh s apriorno izvestnoy strukturoy mnogomernykh modeley [A systematic approach to the statistical interpretation of geophysical data in objects with an a priori known structure of multidimensional models]. Primenenie matematicheskikh sposobov i EVM v geologii: tezisy seminara (Alma-Ata, August 20-22, 1974). Alma-Ata, 1974, p. 85-87.
   Enikeev B.N., Kolesov V.V., Lebedeva M.L., Smirnov O.A., Susanina O.M. Petrofizicheskie aspekty problemy otsenki otlozheniy bazhena [Petrophysical aspects of assessing problem of the Bazhenov Formation strata]. Sankt-Peterburg 2014. Geonauki – investitsii v budushchee: materialy 6-y mezhdunarodnoy geologo-geofizicheskoy konferentsii (St. Petersburg, April 7-10, 2014). St. Petersburg, 2014. DOI: https://doi.org/10.3997/2214-4609.20140230
   Epov M.I., Glinskikh V.N. Bystroe dvumernoe modelirovanie vysokochastotnogo elektromagnitnogo polya dlya zadach karotazha [Rapid two-dimensional modeling of a high-frequency electromagnetic field for logging problems]. Geologiya i geofizika, 2003, vol. 44 (9), p.942-952.
   Epov M.I., Glinskikh V.N. Linearizatsiya otnositel'nykh kharakteristik vysokochastotnogo magnitnogo polya v dvumernykh provodyashchikh sredakh [Linearization of the relative characteristics of a high-frequency magnetic field in two-dimensional conducting media]. Geologiya i geofizika, 2004, vol. 45, no.2, p. 266-274.
   Epov M.I., Glinskikh V.N., Nikitenko M.N., Sukhorukova K.V. Kompleks SKL dlya karotazha za odin spusko-pod"em: metodiki i interpretatsiya na prakticheskikh primerakh [Complex SKL for one run-up logging: techniques and interpretation on practical examples]. Puti realizatsii neftegazovogo i rudnogo potentsiala Khanty-Mansiyskogo avtonomnogo okruga – Yugry materialy 15-y nauchno-prakticheskoy konferentsii. Khanty-Mansiysk: IzdatNaukaServis, 2012, vol. 2, p. 27-36.
   Epov M.I., Glinskikh V.N., Sukhorukova K.V., Nikitenko M.N., Eremin V.N. Chislennoe modelirovanie i inversiya dannykh elektromagnitnogo karotazha v protsesse bureniya i shablonirovaniya neftegazovykh skvazhin [Numerical modeling and inversion of electromagnetic log data during drilling and oil and gas well patterning]. Geologiya i geofizika, 2015, vol. 56 (8), p. 1520-1529.
   Glinskikh V.N., Nesterova G.V., Epov M.I. Modelirovanie i inversiya dannykh elektromagnitnogo karotazha s ispol'zovaniem petrofizicheskikh modeley elektroprovodnosti [Simulation and inversion of electromagnetic log data using petrophysical models of electrical conductivity]. Geologiya i geofizika, 2014, vol. 55, no.5-6, p. 1001-1010.
   Glinskikh V.N., Nikitenko M.N., Epov M.I. Linearizovannye resheniya dvumernykh pryamoy i obratnoy zadach vysokochastotnogo elektromagnitnogo karotazha v provodyashchikh sredakh s uchetom tokov smeshcheniya [Linearized solutions of two-dimensional direct and inverse problems of high-frequency electromagnetic logging in conducting media taking into account displacement currents]. Geologiya i geofizika, 2013, vol. 54, no. 12, p. 31-42.
   Glinskikh V.N., Nikitenko M.N., Epov M.I. Modelirovanie i inversiya dannykh elektromagnitnykh zondirovaniy v plastakh konechnoy moshchnosti, vskrytykh na biopolimernykh i neftyanykh burovykh rastvorakh [Modeling and inversion of electromagnetic sounding data in formations of finite thickness, opened on biopolymer and oil drilling fluids]. Geologiya i geofizika, 2013, vol. 54 (11), p. 1803-1813.
   Gurari F.G. Domanikity i ikh neftegazonosnost' [Dominikits and their oil and gas potential]. Sovetskaya geologiya, 1981, no.11, p. 3-12.
   Gurari F.G., Gurari I.F. Formirovanie zalezhey nefti v argillitakh bazhenovskoy svity Zapadnoy Sibiri [Formation of oil accumulations in the argillites of the Bazhenov Formation of Western Siberia]. Geologiya nefti i gaza, 1974, no. 5, p. 36-40.
   Kalmykov G.A. Stroenie bazhenovskogo neftegazonosnogo kompleksa kak osnova prognoza differentsirovannoy nefteproduktivnosti [The structure of the Bazhenov oil and gas bearing section as the basis for the forecast of differentiated oil production]. Dissertatsiya na soiskanie uchenoy stepeni doktora geologo-mineralogicheskikh nauk. Moscow: MGU, 2016, 391 p.
   Khabarov V.V., Nelepchenko O.M., Volkov E.H., Bartashevich O.V. Uran, kaliy i toriy v bituminoznykh porodakh bazhenovskoy svity Zapadnoy Sibiri [Uranium, potassium and thorium in bituminous rocks of the Bazhenov Formation of Western Siberia]. Sovetskaya geologiya, 1980, no.10, p. 94-105.
   Khalimov E.M., Melik-Pashaev V.S. O poiskakh promyshlennykh skopleniy nefti v bazhenovskoy svite [Searching for industrial oil accumulations in the Bazhenov Formation]. Geologiya nefti i gaza, 1980, no.6, p. 1-9.
   Klubova T.T. Glinistye kollektory nefti i gaza [Clay reservoirs of oil and gas]. Moscow: Nedra, 1988, 155 p.
   Kontorovich A.E., Berman E.L., Bogorodskaya L.I., Vinokur B.G., Kolganova M.M., Lipnitskaya L.F., Mel'nikova V.M., Stasova O.F., Fomichev A.S. Geokhimiya yurskikh i nizhnemelovykh otlozheniy Zapadno-Sibirskoy nizmennosti [Geochemistry of Jurassic and Lower Cretaceous sequences of the West Siberian lowland]. Moscow: Nedra, 1971, 251 p. (Tr. SNIIGGiMSa, Ser. Neftyanaya geologiya, vyp. 36).
   Kontorovich A.E., Kontorovich V.A., Ryzhkova S.V., Shurygin B.N., Vakulenko L.G., Gaydeburova E.A., Danilova V.P., Kazanenkov V.A., Kim N.S., Kostyreva E.A., Moskvin V.I., Yan P.A. Paleogeografiya Zapadno-Sibirskogo osadochnogo basseyna v yurskom periode [Paleogeography of the West Siberian sedimentary basin during the Jurassic period]. Geologiya i geofizika, 2013, vol. 54, no. 8, p. 972-1012.
   Kontorovich A.E., Yan P.A., Zamiraylova A.G., Kostyreva E.A., Eder V.G. Klassifikatsiya porod bazhenovskoy svity [Classification of the rocks of the Bazhenov Formation]. Geologiya i geofizika, 2016, vol. 57, no.11, p. 2034-2043.
   Kulyapin P.S., Sokolova T.F. Prognoz kollektorov v razreze bazhenovskoy svity po materialam kerna i geofizicheskikh issledovaniy skvazhin [Forecast of reservoirs in the context of the Bazhenov Formation based on cores and geophysical studies of wells]. Izvestiya Tomskogo politekhnicheskogo universiteta, 2015, vol. 326, no. 1, p. 118-133.
   Mikhaylov I.V., Glinskikh V.N., Nikitenko M.N., Surodina I.V. Sovmestnaya chislennaya inversiya dannykh induktsionnykh i gal'vanicheskikh karotazhnykh zondirovaniy v modelyakh geologicheskikh sred s osevoy simmetriey [Joint numerical inversion of induction and galvanic logging data in models of geological media with axial symmetry]. Geologiya i geofizika, 2017, vol. 58, no.6, p. 935-947.
   Mitchell W.K., Nelson R.J. A Practical Approach To Statistical Log Analysis // SPWLA 29th Annual Logging Symposium, 1988. June 5-8, 20 p.
   Mitchell W.K., Nelson R.J. Statistical Log Analysis Made Practical. World Oil, 1991, vol. 212, no.6, 115 p.
   Moss B., Harrison R. Statistically Valid Log Analysis Method Improves Reservoir Description. Offshore Europe conference (Aberdeen, September 10-13, 1985). Aberdeen, 1985, Paper SPE-13981-MS, 32 p.
   Nesterov I.I. Neftegazonosnost' glinistykh bituminoznykh porod [Oil and gas potential of argillaceous bituminous rocks]. Stroenie i neftegazonosnost' bazhenitov Zapadnoy Sibiri. Tyumen', 1985, p. 3-19.
   Novikov G.R., Salmanov F.K., Tyan A.V. Perspektivy otkrytiya krupnykh zalezhey nefti v treshchinovatykh argillitakh bazhenovskoy svity [Prospects of large oil deposits discovery in the fissured mudstones of the Bazhenov Formation]. Neft' i gaz Tyumeni, 1970, no. 7, p. 1-3.
   Petersil'e V.I., Poroskun V.I., Yatsenko G.G. Metodicheskie rekomendatsii po podschetu geologicheskikh zapasov nefti i gaza ob"emnym metodom [Methodological recommendations on the calculation of geological reserves of oil and gas by volumetric method]. Moscow: Tver': VNIGNI. NPTs «Tver'geofizika», 2003, 130 p.
   Reshenie 6-go mezhvedomstvennogo stratigraficheskogo soveshchaniya po rassmotreniyu i prinyatiyu utochnennykh stratigraficheskikh skhem mezozoyskikh otlozheniy Zapadnoy Sibiri [Decision of the 6th interdepartmental stratigraphic meeting on consideration and adoption of specified stratigraphic schemes of the Mesozoic deposits of Western Siberia]. Novosibirsk, 2004, p. 43-77.
   Shurygin B.N., Nikitenko B.L., Devyatov V.P., Il'ina V.I., Meledina S.V., Gaydeburova E.A., Dzyuba O.S., Kazakov A.M., Mogucheva N.K. Stratigrafiya neftegazonosnykh rayonov Sibiri. Yurskaya sistema [Stratigraphy of oil and gas bearing regions of Siberia. Jurassic system]. Novosibirsk: Izdatel'stvo SO RAN. Filial «Geo», 2000, 480 p.
   Vendel'shteyn B.Yu., Rezvanov R.A. Geofizicheskie metody opredeleniya parametrov neftegazovykh kollektorov (pri podschete zapasov i proektirovanii razrabotki mestorozhdeniy) [Geophysical methods for determining the parameters of oil and gas reservoirs (for reserves calculating and field development designing)]. Moscow: Nedra, 1978, 29 p.
   Zanin Yu.N., Zamiraylova A.G., Eder V.G. Nekotorye aspekty formirovaniya bazhenovskoy svity v tsentral'nykh rayonakh Zapadno-Sibirskogo osadochnogo basseyna [Some aspects of the formation of the Bazhenov Formation in the central regions of the West Siberian sedimentary basin]. Litosfera, 2005, no.4, p. 118-135.
   Zaripov O.G., Sonich V.P., Zubkov M.Yu. Regional'naya perspektivnost' otlozheniy bazhenovskoy svity Zapadnoy Sibiri [Regional prospectivity of the Bazhenov Formation of Western Siberia]. Issledovaniya v oblasti geologii i razrabotki neftyanykh mestorozhdeniy Zapadnoy Sibiri: sb. nauchn. tr. SibNIINP. Tyumen', 1982, p. 132-144.
   Zubkov M.Yu. Litologo-petrofizicheskaya kharakteristika otlozheniy bazhenovskoy i abalakskoy svit tsentral'noy chasti Krasnoleninskogo svoda (Zapadnaya Sibir') [Lithological and petrophysical characteristics of the deposits of the Bazhenov and Abalak Formations of the central part of the Krasnoleninsk arch (Western Siberia)]. Geologiya i geofizika, 1999, vol.40, no.12, p.1821-1836.



Geochemical research
Section editor – PhD in geology and mineralogy Bazhenova T.K.
Article # 29_2017 submitted on 06/14/2017 displayed on website on 09/04/2017
15 p.
pdf  The application of the Nuclear Magnetic Resonance Relaxometry method to express-study of rheological properties and composition of oil and gas condensate
Nuclear Magnetic Resonance is widely used today in laboratory and borehole studies of rock porosity and permeability properties. Applying to oil-containing fluid physicochemical properties investigation this paper is devoted to Nuclear Magnetic Resonance Relaxometry possibilities study as an express-method of rheological properties evaluation and saturates, aromatics, resins and asphaltenes (SARA) analysis of hydrocarbons samples. Nuclear Magnetic Resonance Relaxometry properties of hydrocarbons samples from a number of fields in Western Siberia were studied. A comparative analysis with the results of standard geochemical studies was made.

Keywords: Nuclear Magnetic Resonance Relaxometry, rheological properties oil and gas condensate, SARA analysis of hydrocarbons.
article citation Turakhanov A.K., Glinskikh V.N., Kashirtsev V.A., Fursenko E.A., Shumskaite M.I. Primenenie yadernogo magnitnogo rezonansa - relaksometrii dlya ekspress-issledovaniya reologicheskikh svoystv i gruppovogo sostava nefti i kondensata [The application of the Nuclear Magnetic Resonance Relaxometry method to express-study of rheological properties and composition of oil and gas condensate]. Neftegazovaya Geologiya. Teoriya I Praktika, 2017, vol. 12, no. 3, available at: http://www.ngtp.ru/rub/1/29_2017.pdf
DOI https://doi.org/10.17353/2070-5379/29_2017
References

   Dzhafarov I.S., Syngaevskiy P.E., Khafizov S.F. Primenenie metoda yadernogo magnitnogo rezonansa dlya kharakteristiki svoystva i raspredeleniya plastovykh flyuidov [The application of the nuclear magnetic resonance method to characterize the feature and distribution of formation fluids]. Moscow, Khimiya, 2002, 439 p.
   Fleury M., Deflandre F., Godefroy S. Validity of permeability prediction from NMR measurements. Comptes Rendus de l'Academie des Sciences, Chemistry, 2001, no. 4, p. 869-872.
   Freedman R, Heaton N. Fluid characterization using nuclear magnetic resonance logging. Petrophysics, 2004, no. 45, p. 241-250.
   Freedman R., Heaton N., Flaum M., Hirasaki G., Flaum C., Hurlimann M. Wettability saturation and viscosity from NMR measurements. SPE Journal, 2003, no. 8, p. 317–327. DOI: https://doi.org/10.2118/87340-PA
   GOST R 51858-2002. Neft'. Obshchie tekhnicheskie usloviya [Oil. General technical requirements]. Moscow, GOSSTANDART ROSSII, 2002, 11 p.
   Hursan G., Seifert D.J., Lyngra S., Palmer R.G. Oil viscosity estimation from NMR logs for in-situ heavy oil characterization. SPE Annual Technical Conference and Exhibition, 26-28 September, Dubai, UAE, 2016, Paper 181600-MS, 13 p. DOI: https://doi.org/10.2118/181600-MS
   Jones M., Taylor S.E. NMR Relaxometry and Diffusometry in characterizing structural, interfacial and colloidal properties of heavy oils and oil sands. Advances in Colloid and Interface Science, 2015, no. 224, p. 33-45. DOI: https://doi.org/10.1016/j.cis.2015.07.007
   Kausik R., Fellah K., Feng L., Freed D., Simpson G. High- and Low-Field NMR Relaxometry and Diffusometry of the Bakken Petroleum System. SPWLA 57th Annual Logging Symposium, 25-29 June, Reykjavik, Iceland, 2016, Paper SSS, 7 p.
   Korb J.P., Vorapalawut N., Nicot B., Bryant R.G. Relation and Correlation between NMR Relaxation Times, Diffusion Coefficients, and Viscosity of Heavy Crude Oils. The Journal of Physical Chemistry, 2015, vol. 119, no. 43, p. 24439-24446. DOI: https://doi.org/10.1021/acs.jpcc.5b07510
   Mirotchnik K, Kantzas A, Starosud A, Aikman M. A New method for group analysis of petroleumfractions in unconsolidated porous media. Journal of Canadian Petroleum Technology, 2001, no. 40, p. 38-44.
   Perepuhov A.M., Shestakov S.L. Algoritm obratnogo preobrazovaniya Laplasa dlya obrabotki slozhnyh relaksatsionnyh zavisimostey [Inverse Laplace transformation algorithm for complex relaxation dependencies processing]. Trudy MFTI, 2010, vol. 2, no 2, p. 35–40.
   Shkalikov N.V., Skirda V.D., Arсhipov R.V. Solid-like component in the spin-spin NMR-relaxation of heavy oils. Magnetic Resonance in Solids. Electronic Journal, 2006, vol. 8, no. 1, p. 38-42.
   Shumskayte M.Y., Dolomanskiy Yu.K. Otsenka obemnogo soderzhaniya i tipa glinistykh mineralov s ispolzovaniem YAMR-relaksometrii [Evaluation of the volume content and clay minerals type using NMR relaxometry]. Tyumen-2013: Novye geotekhnologii dlya starykh provintsiy: materialy 3-y mezhdunarodnoy nauchno-prakticheskoy konferentsii. Tyumen, 2013. CD-ROM, PR3. – 10.3997/2214-4609.20142726. Rezhim dostupa: http://www.earthdoc.org/publication/publicationdetails/?publication=67252.
   Shumskayte M.Y., Glinskikh V.N. Analiz vliyaniya ob"emnogo soderzhaniya i tipa glinistykh mineralov na relaksatsionnye kharakteristiki peschano-alevritovykh obraztsov kerna [Analysis of the effect of volumetric content and the clay minerals type on relaxation characteristics of sandy-aleuritic core samples]. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy, 2015, no 7, p. 35-38.
   Shumskayte M.Y., Glinskikh V.N. Eksperimental'noe issledovanie zavisimosti YAMR-kharakteristik ot udel'noy poverkhnosti i udel'nogo elektricheskogo soprotivleniya peschano-alevritoglinistykh obraztsov [Relation of NMR parameters with specific surface and resistivity of shaly sandstone and siltstone samples: experimental study]. Geologiya i geofizika, 2016, vol. 57, no 10, p. 1911-1918.
   Shumskayte M.Y., Glinskikh V.N. Izuchenie udelnoy poverkhnosti vodonasyshchennykh peschano-alevrolitovykh porod po dannym YAMR-relaksometrii [Specific surface area study of sand-siltstone rocks using NMR-relaxometry]. Tyumen-2015: Glubokie gorizonty nauki i nedr: Materialy 4-y mezhdunarodnoy nauchno-prakticheskoy konferentsii. Tyumen, 2015. CD-ROM, PP02. – 10.3997/2214-4609.201412051. Rezhim dostupa: http://www.earthdoc.org/publication/publicationdetails/?publication=79691.
   Shumskayte M.Y., Glinskikh V.N., Bortnikova S.B., Kharitonov A.N., Permyakov V.S. Laboratornoe izuchenie zhidkostey vynosimykh iz skvazhin metodom YAMR-relaksometrii [NMR-relaxometry laboratory study of fluids taken from boreholes]. Izvestiya Tomskogo politekhnicheskogo universiteta. Inzhiniring georesursov, 2017, vol. 328, no 2, p. 59-66
   Turakhanov A.K., Glinskikh V.N., Fursenko E.A., Shumskayte M.Y. Ekspressnoe izuchenie gruppovogo sostava i reologicheskikh svoystv uglevodorodov metodom YAMR-relaksometrii [Express-study of SARA analysis and rheological properties of hydrocarbons using NMR-relaxometry]. Tyumen-2017: Geonauki – klyuch k ratsionalnomu osvoeniyu nedr: materialy 5-y mezhdunarodnoy nauchno-prakticheskoy konferentsii. Tyumen, 2017. CD-ROM, C03. –10.3997/2214-4609.201700082. Rezhim dostupa: http://www.earthdoc.org/publication/publicationdetails/?publication=87663.
   Zaripov T.A., Doroginitskiy M.M., Gizatullin B.I., Abdullin T.R., Musin K.M., Murzakaev V.M. Rezul'taty izucheniya vyazkosti nefti s mestorozhdeniy respubliki Tatarstan s pomoshch'yu metoda Yadernoy magnitno-rezonansnoy relaksometrii [Results of oil viscosity study from Tatarstan fields employing nuclear magnetic resonance relaxometry]. Karotazhnik, 2015, no. 253, p. 3-13.