Thermal field generation in wellbore analogue with local heating

I. V. Kanafin; D. V. Kosmilin

Geodesic

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Thermal field generation in wellbore analogue with local heating

I. V. Kanafin ; D. V. Kosmilin

News of the Kabardin-Balkar scientific center of RAS, no. 2 (2017), pp. 44-48.

Voir la notice de l'article provenant de la source Math-Net.Ru

Résumé

The paper considers experimental setup of a well model that allows to set flows behind casing. As a result of induction heating of the casing in the wellbore and in the space behind the casing a thermal mark is created. Observation of the processes of the formation, moving and destruction of that mark may solve the probleme problem of channels of flow behind casing.

Keywords: wellbore model, behind casing flow, convective heat transfer, induction heating, thermal label, heat exchange, active thermometry.

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     author = {I. V. Kanafin and D. V. Kosmilin},
     title = {Thermal field generation in wellbore analogue with local heating},
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     number = {2},
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     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/IZKAB_2017_2_a1/}
}

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I. V. Kanafin; D. V. Kosmilin. Thermal field generation in wellbore analogue with local heating. News of the Kabardin-Balkar scientific center of RAS, no. 2 (2017), pp. 44-48. http://geodesic.mathdoc.fr/item/IZKAB_2017_2_a1/

Bibliographie
Cité par

[1] Ya. N. Basin, Rukovodstvo po primeneniyu promyslovo-geofizicheskikh metodov dlya kontrolya za razrabotkoi neftyanykh mestorozhdenii, Nedra, M., 1978, 255 pp.

[2] R. A. Valiullin, R. F. Sharafutdinov, V. Ya. Fedotov, M. F. Zakirov, A. M. Sharipov, K. R. Akhmetov, F. F. Azizov, “Ispolzovanie nestatsionarnoi termometrii dlya diagnostiki sostoyaniya skvazhin”, Neftyanoe khozyaistvo, 2015, no. 5, 93–96

[3] R. A. Valiullin, R. F. Sharafutdinov, V. Ya. Fedotov, I. V. Kanafin, “Eksperimentalnaya ustanovka dlya izucheniya svobodnoi teplovoi konvektsii pri induktsionnom nagreve ekspluatatsionnoi kolonny”, Vestnik Bashkirskogo universiteta, 21:2 (2016), 264–268

[4] R. A. Valiullin, R. F. Sharafutdinov, A. Sh. Ramazanov, V. V. Dryagin, Ya. R. Adiev, A. A. Shilov, Sposob aktivnoi termometrii deistvuyuschikh skvazhin, Patent Rossii # 2194160, 2002

[5] R. M. McKinley, F. M. Bower, R. C. Rumble, “The structure and interpretation of noise from flow behind cemented casing”, SPE, 3999 (1973), 329–338

[6] C. C. Lin, H. J. Paap, “Behind casing water flow log simulation”, SPE, 26292 (1993)