Geodesic
Mathematical model and computational analysis of horizontal well hydrodinamics
Matematičeskoe modelirovanie, Tome 24 (2012) no. 4, pp. 57-64.

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The article considers model and analysis algorithm for horizontal well with submergible pump oriented towards real-time control tasks.
Keywords: horizontal well, hydrodynamics’ model, computational analysis for transients. 
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I. G. Solovyev; D. A. Govorkov. Mathematical model and computational analysis of horizontal well hydrodinamics. Matematičeskoe modelirovanie, Tome 24 (2012) no. 4, pp. 57-64. http://geodesic.mathdoc.fr/item/MM_2012_24_4_a3/

[1] Ajayi A., Konopczynski M., Sukkestad T., Network Approach for Optimization and Control of Intelligent Well Systems: Theory and Practice, SPE 110641, 2007

[2] Leembuis A. P., Belfroid S. P., Alberts G. J. N., Gas Coning Control for Smart Wells, SPE 110317, 2007

[3] Saputelli L., Nikolaou M., Economides M. J., “Real-time reservoir management: A multiscale adaptive optimization and control approach”, Computational Geosciences, 2006, no. 10, 61–96 | DOI | MR | Zbl

[4] Solovev I. G., Govorkov D. A., Fomin V. V., “Tekhnologiya adaptivnogo nablyudeniya glubinnykh sostoyanii gidrodinamiki neftyanykh skvazhin”, NTZh «Avtomatizatsiya, telemekhanizatsiya i svyaz v neftyanoi promyshlennosti», 2007, no. 8, 30–34

[5] Solovev I. G., Kazakov A. A., “Optimalnyi uroven vskrytiya lokalnoi vodoplavayuschei zony kollektora skvazhinoi s reguliruemoi proizvoditelnostyu”, NTZh «Avtomatizatsiya i telemekhanizatsiya i svyaz v neftyanoi promyshlennosti», 2011, no. 2, 14–19

[6] Tyapov O. A., Garifullin A. R., Basov S. G., Khanzhin V. G., “Sovremennye sistemy upravleniya elektronasosami pri periodicheskikh rezhimakh ekspluatatsii skvazhin”, Neftyanoe khozyaistvo, 2008, no. 2, 94–96

[7] Basniev K. S., Vlasov A. M., Kochina I. N., Maksimov V. M., Podzemnaya gidravlika, Uchebnik dlya vuzov, Nedra, M., 1986, 303 pp.

[8] Lutoshkin G. S., Sbor i podgotovka nefti, gaza i vody, Nedra, M., 1979, 319 pp.

[9] Schelkachev V. N., Lapuk B. B., Podzemnaya gidravlika, RKhD, Izhevsk, 2001, 736 pp.

[10] Buzinov S. N., Umrikhin I. D., Issledovanie neftyanykh i gazovykh skvazhin i plastov, Nedra, M., 1984, 269 pp.

[11] Solovev I. G., Govorkov D. A., “Identifikatsiya gidrodinamicheskikh parametrov skvazhiny, oborudovannoi pogruzhnym nasosom s nablyudatelem protsessa razgazirovaniya nefti v pod'emnike. Osnovy metodiki I”, NTZh «Avtomatizatsiya, telemekhanizatsiya i svyaz v neftyanoi promyshlennosti», 2009, no. 3, 28–33