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 TVT, 2009, Volume 47, Issue 4, Pages 605–609 (Mi tvt847)

Heat and Mass Transfer and Physical Gasdynamics

An investigation of the processes of heat and mass transfer in a multilayer medium under conditions of injection of a miscible agent with simultaneous electromagnetic stimulation

A. Ya. Davletbaev, L. A. Kovaleva, N. M. Nasyrov

Bashkir State University, Ufa

Abstract: A numerical investigation is performed of the impact of high-frequency (HF) electromagnetic (EM) field on the process of filtering of miscible fluids and propagation of heat in a uniform stratum. The cross effects of heat and mass transfer, which arise under conditions of nonisothermal motion of a multicomponent medium in porous medium, are taken into account during simulation.

Full text: PDF file (409 kB)

English version:
High Temperature, 2009, 47:4, 574–579

Bibliographic databases:

UDC: 532.546:537.868

Citation: A. Ya. Davletbaev, L. A. Kovaleva, N. M. Nasyrov, “An investigation of the processes of heat and mass transfer in a multilayer medium under conditions of injection of a miscible agent with simultaneous electromagnetic stimulation”, TVT, 47:4 (2009), 605–609; High Temperature, 47:4 (2009), 574–579

Citation in format AMSBIB
\Bibitem{DavKovNas09} \by A.~Ya.~Davletbaev, L.~A.~Kovaleva, N.~M.~Nasyrov \paper An investigation of the processes of heat and mass transfer in a multilayer medium under conditions of injection of a miscible agent with simultaneous electromagnetic stimulation \jour TVT \yr 2009 \vol 47 \issue 4 \pages 605--609 \mathnet{http://mi.mathnet.ru/tvt847} \transl \jour High Temperature \yr 2009 \vol 47 \issue 4 \pages 574--579 \crossref{https://doi.org/10.1134/S0018151X09040166} \isi{http://gateway.isiknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&DestLinkType=FullRecord&DestApp=ALL_WOS&KeyUT=000268784800015} \scopus{http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-68849091645} 

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• http://mi.mathnet.ru/eng/tvt/v47/i4/p605

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Citing articles on Google Scholar: Russian citations, English citations
Related articles on Google Scholar: Russian articles, English articles

This publication is cited in the following articles:
1. Davletbaev A., Kovaleva L., Babadagli T., “Mathematical Modeling and Field Application of Heavy Oil Recovery by Radio-Frequency Electromagnetic Stimulation”, J. Pet. Sci. Eng., 78:3-4 (2011), 646–653
2. Kovaleva L., Davletbaev A., Babadagli T., Stepanova Z., “Effects of Electrical and Radio-Frequency Electromagnetic Heating on the MASS-Transfer Process During Miscible Injection for Heavy-Oil Recovery”, Energy Fuels, 25 (2011), 482–486
3. A. Ya. Davletbaev, L. A. Kovaleva, “Simulation of high-viscosity oil production using electromagnetic radiation combined with hydraulic fracturing of formation”, High Temperature, 52:6 (2014), 900–906
4. Davletbaev A., Kovaleva L., Babadagli T., “Heavy Oil Production By Electromagnetic Heating in Hydraulically Fractured Wells”, Energy Fuels, 28:9 (2014), 5737–5744
5. Ghannadi S., Irani M., Chalaturnyk R., “Evaluation of Induced Thermal Pressurization in Clearwater Shale Caprock in Electromagnetic Steam-Assisted Gravity-Drainage Projects”, SPE J., 19:3 (2014), 443–462
6. G. R. Izmaylova, L. A. Kovaleva, N. M. Nasyrov, “Acoustic wave energy absorption and distributed heat sources upon an acoustic impact on media”, High Temperature, 54:1 (2016), 55–60
7. Davletbaev A. Kovaleva L. Babadagli T., “Combining Solvent Injection, Electromagnetic Heating, and Hydraulic Fracturing For Multistage Heavy Oil Recovery”, J. Electromagn. Waves Appl., 30:2 (2016), 207–224
8. Davletbaev A. Kovaleva L. Kireev V. Zainullin A. Myasnikov A., “Solvent Injection and Radio-Frequency Electromagnetic Radiation in the Fractured Well: Numerical Study”, AIP Conference Proceedings, 1906, ed. Simos T. Kalogiratou Z. Monovasilis T., Amer Inst Physics, 2017, UNSP 200011-1
9. Davletbaev A., Kovaleva L., Zainulin A., Babadagli T., “Numerical Modeling of Heavy-Oil Recovery Using Electromagnetic Radiation/Hydraulic Fracturing Considering Thermal Expansion Effect”, J. Heat Transf.-Trans. ASME, 140:6 (2018), 062001