Coupled Electrophysical and Geomechanical Models of Oil-Saturated Reservoirs

I.N. Yeltsov; G. Nesterova; L. Nazarov; L. Nazarova

doi:10.3997/2214-4609.201700144

Coupled Electrophysical and Geomechanical Models of Oil-Saturated Reservoirs
Authors I.N. Yeltsov¹, G. Nesterova², L. Nazarov³, L. Nazarova³
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Affiliations: ¹ Institute of Petroleum Geology & Geophysics SB RAS ² IPGG SB RAS ³ CIM SB RAS
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, Tyumen 2017, Mar 2017, Volume 2017, p.1 - 5
DOI: https://doi.org/10.3997/2214-4609.201700144

Abstract

Summary

Multiphysical model of productive reservoirs includes the description of the main interconnected and interdependent physical processes in the vicinity of the well and the main parameters of these processes. Only by taking into account all essential factors of mud-filtrate invasion, we can build an effective strategy of logging data interpretation, to reliably estimate the reservoir parameters. Otherwise during data inversion unaccounted features of the invaded zone will transfer on the formation properties, and it will result in incorrect forecast of oilfield characteristics. Coupled electrophysical and geomechanical model of borehole environment involves consideration of geomechanical processes during drilling, changes of filtration-volumetric properties of rocks, filtration processes, salt transfer, growth and destruction of the mud cake, change of the electrical characteristics of medium, calculating of electrical and electromagnetic logging data for realistic medium models. To build models authors used software for simulation of filtration processes of two-phase fluid and salt transport under stress-strain state, computer models of the electrical conductivity of heterogeneous medium and programs for calculating readings of electric (BKZ) and electromagnetic (VIKIZ) logging tools for three-dimensional environments, as well as the data of laboratory petrophysical and geomechanical measurements from PetroMechBD database, created with the participation of the authors.

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2024-04-16

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References

ГлинскихВ.Н., НестероваГ.В., ЭповМ.И.
Моделирование и инверсия данных электромагнитного каротажа с использованием петрофизических моделей электропроводности // Геология и геофизика. – 2014. – Т. 55. – № 5-6. – С. 1001–1010.
[Google Scholar]
ЕльцовИ.Н., НестероваГ.В., КашеваровА.А.
Петрофизическая интерпретация повторных электромагнитных зондирований в скважинах // Геология и геофизика. – 2011. – Т. 52. – № 6. – С. 852–861.
[Google Scholar]
ЕльцовИ.Н., НазаровЛ.А., НазароваЛ.А., НестероваГ.В., ЭповМ.И.
Интерпретация геофизических измерений в скважинах с учетом гидродинамических и геомеханических процессов в зоне проникновения // ДАН. – 2012 . – Т. 445 . – № 6. – С. 671–674.
[Google Scholar]
ЕльцовИ.Н., НазароваЛ.А., НазаровЛ.А., НестероваГ.В., СоболевА.Ю., ЭповМ.И.
Скважинная геоэлектрика нефтегазовых пластов, разбуриваемых на репрессии давления в неравнокомпонентном поле напряжений // Геология и геофизика. – 2014. – Т. 55. – № 5-6. – С. 978-990.
[Google Scholar]
НазароваЛ.А., НазаровЛ.А., ЭповМ.И., ЕльцовИ.Н.
Мультидисциплинарная модель околоскважинного пространства для описания эволюции физических полей различной природы // The Proceeding of International Conference “Topical Problems of Continuum Mechanics”. –8–12 октября 2012. Tzakhkadzor, Armenia. – P. 89–93.
[Google Scholar]
НазароваЛ.А., НазароваЛ.А., ЭповМ.И., ЕльцовИ.Н.
Эволюция геомеханических и электрогидродинамических полей в массиве горных пород при бурении глубоких скважин // ФТПРПИ. – 2013. - № 5. – С. 37–49.
[Google Scholar]
НестероваГ.В.
Математические модели электропроводности двухкомпонентных сред и формула Арчи (по материалам публикаций) // Каротажник. – 2008. – № 10. – С. 81–101.
[Google Scholar]
Нестерова, Г.В.
Моделирование гидродинамических процессов в напряжённо-деформированной прискважинной зоне и геофизические приложения [Текст] / Г.В.Нестерова, И.Н.Ельцов, В.А.Киндюк, Л.А.Назаров, Л.А.Назарова // Петрофизика сложных коллекторов: проблемы и перспективы2014. – Сборник статей. –М.: «ЕАГЕ Геомодель». – 2014 – С. 327–344.
[Google Scholar]
НазаровЛ.А., НазароваЛ.А., НестероваГ.В., ЕльцовИ.Н.
Свидетельство о гос. регистрации программ для ЭВМ № 2012619496 РФ. GEHM / НазаровЛ.А., НазароваЛ.А., НестероваГ.В., ЕльцовИ.Н.Правообладатель: Институт нефтегазовой геологии и геофизики им. А.А. Трофимука СО РАН. – № 2012619496 от 19.10.2012.
[Google Scholar]
ЕльцовИ.Н., Голик овН.А., КиндюкВ.А., НазаровЛ.А., НазароваЛ.А., НестероваГ.В.
Свидетельство о гос. регистрации базы данных PetroMechBD / ЕльцовИ.Н., Голик овН.А., КиндюкВ.А., НазаровЛ.А., НазароваЛ.А., НестероваГ.В. // Правообладатель: Институт нефтегазовой геологии и геофизики им. А.А. Трофимука СО РАН. – № 2015620912 от 11.07.2015 года.
[Google Scholar]
СуродинаИ.В, НестероваГ.В.
Моделирование показаний зондов ВИКИЗ и БКЗ на графических процессорах // Петрофизика сложных коллекторов: проблемы и перспективыПетрофизика сложных коллекторов: проблемы и перспективы2015. Сборник статей EAGE. – 2015. – C. 85–94.
[Google Scholar]
Эпов
, 2004ЭповМ.И., ЕльцовИ.Н., КашеваровА.А., СоболевА.Ю., УльяновВ.Н.Эволюция зоны проникновения по данным электромагнитного каротажа и гидродинамического моделирования // Геология и геофизика. – 2004. – Т. 45 (8) . – С. 1031–1042.
[Google Scholar]
ЯрмаховИ.Г., ПоповС.Б.
Комплексный метод гидродинамики околоскважинного пространства и индукционного (диэлектрического) каротажа при изучении нефтегазовых скважин // Каротажник. – Тверь, 2003. – №10. – C. 63–83.
[Google Scholar]
AlpakF. O., Torres-VerdinC., HabashyT. M.
Petrophysical inversion of borehole array-induction logs: Part I — Numerical examples // Geophysics. – 2006. – V. 71. – No. 4. – P. F101–F119.
[Google Scholar]
ChinL.Y., RajagopalRaghavan, ThomasL.K.
Fully coupled geomechanics and fluid-flow analysis of wells with stress-dependent permeability //SPE Journal. – 2000. – V. 5. – No 1. – P. 32–45.
[Google Scholar]
HeidariZ., and Torres-VerdinC.
Estimation of dynamic petrophysical properties of waterbearing sands invaded with oil-base mud from the interpretation of multiple borehole geophysical measurements //Geophysics. – 2012 . – V. 77. – No 6. – P. D209–D227.
[Google Scholar]
Jalali, M.R
Coupling Geomechanics and Transport in Naturally Fractured Reservoirs[Текст] / M.R. Jalali, M.R. Dusseault //Int. J. Min & Geo-Eng. (IJMGE) . – V. 46. – No. 1. – Dec. 2012. – P. 1–26.
[Google Scholar]
LautenschlägerC. E. R., RighettoG. L., InoueN., Barreto da FontouraS.A.
Advances on partial coupling in reservoir simulation: A new scheme of hydromechanical coupling //2013 North Africa Technical Conference & Exhibition, Apr 15 - 17. –2013. – InterContinental Citystar, Cairo, Egypt. – Conference Paper 164657-MS. – 8 p.
[Google Scholar]
SalazarJ.M., Torres-VerdinC., AlpakF.O., HabashyT.M., KleinJ.D.
Estimation of permeability from borehole array induction measurements: Application to the petrophysical appraisal of tight gas sands //Petrophysics. – 2006. – Vol. 47. – No 6. – P. 527–544.
[Google Scholar]
SettariA., MouritsF.M.
Coupled Reservoir and Geomechanical Simulation System A //SPE Journal. – 1998. – V. 3. – No 3. – P. 219–226. – SPE Paper 50939-PA.
[Google Scholar]
SettariA.T., SenV.
Geomechanics in Integrated Reservoir Modeling //Offshore Technology Conference held in Houston, Texas, U.S.A., 5–8 May2008. – Conference paper 19530-MS. – 9 p.
[Google Scholar]
ThomasL.K., ChinL.Y.,PiersonR.G., SylteJ.E.
, Coupled Geomechanics and reservoir simulation //SPE Journal. – 2003. – V. 8. – No 12. – P. 350–358.
[Google Scholar]
TranD., NghiemL., BuchananL.
Iterative coupling of geomechanics with reservoir simulation //SPE Reservoir Simulation Symposium, 31 January-2 Feburary2005, The Woodlands, Texas. – ISBN 978-1-61399-010-0. – Conference paper 93244-MS. 8 p.
[Google Scholar]
YeltsovI., NesterovaG., NazarovaL., NazarovL.
Multidisciplinary model of borehole environment and formation evaluation [Электронный ресурс] //The World Multidisciplinary Earth Sciences Symposium - WMESS 2015 (Prague, Czech Republic, 7–11 September 2015): Abstract Collection. - Prague, 2015. - P. 318–318. - CD-ROM.
[Google Scholar]

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Coupled Electrophysical and Geomechanical Models of Oil-Saturated Reservoirs

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The natural combination of full and image‐based waveform inversion

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