Geodesic
Model orthogonal reduction in identification of oil reservoir filtration parameters
Matematičeskoe modelirovanie, Tome 23 (2011) no. 2, pp. 96-106.

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

The article considers model orthogonal reduction based on pivot method as a way to delivering robust permeability parameters estimations of finite-dimensional linear model of filtration.
Mots-clés : oil reservoir
Keywords: water permeability, identification algorithms, model reduction, regularization, robust estimation. 
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I. G. Solovyev; R. V. Rasporov. Model orthogonal reduction in identification of oil reservoir filtration parameters. Matematičeskoe modelirovanie, Tome 23 (2011) no. 2, pp. 96-106. http://geodesic.mathdoc.fr/item/MM_2011_23_2_a6/

[1] Tikhonov A. N., Arsenin V. Ya., Metody resheniya nekorrektnykh zadach, Nauka, M., 1979, 288 pp. | MR

[2] Forsait Dzh., Moler K., Chislennoe reshenie sistem lineinykh algebraicheskikh uravnenii, Mir, M., 1969, 168 pp. | MR

[3] Vedernikova Yu. A., Solovev I. G., “Otsenivanie lokalnykh gidrodinamicheskikh kharakteristik neftyanykh kollektorov”, Avtomatizatsiya, telemekhanika i svyaz v neftyanoi promyshlennosti, 2005, no. 12, 16–20

[4] Cheng H., Oyerinde D., Datta-Gupta A., Milliken W., Compressible Streamlines and Three-Phase History Matching, SPE 99465, 2006

[5] Nævdal G., Brouwer D. R., Jansen J., “Waterflooding using closed-loop control”, Computational Geosciences, 10 (2006), 37–60 | DOI | MR

[6] Gao G., Li G., Reynolds A. C., “A Stochastic Optimization Algorithm for Automatic History Matching”, SPE Journal, 12 (2007), 196–208 | DOI

[7] Evchenko V. S., Zakharchenko N. P., Kagan Ya. M. i dr., Razrabotka neftyanykh mestorozhdenii naklonno-napravlennymi skvazhinami, Nedra, M., 1986, 278 pp.

[8] Solovev I. G., Govorkov D. A., “Faktory ustoichivosti MNK-otsenok parametrov pritoka vertikalnoi skvazhiny”, Avtomatizatsiya, telemekhanika i svyaz v neftyanoi promyshlennosti, 2009, no. 9, 31–35

[9] Zhiltsov V. V., Dudarev A. V., Demidov V. P., Shitov G. V., Chuvikova V. V., “Resheniya i razvitie intellektualnykh tekhnologii monitoringa i upravleniya mekhanizirovannym fondom skvazhin”, Neftyanoe khozyaistvo, 2006, no. 10, 128–130

[10] Rukovodstvo po ekspluatatsii UETsN 468154.002 RE. Blok pogruzhnoi BP dlya otslezhivaniya tekuschikh parametrov v zaboe skvazhiny, OAO “Izhevskii radiozavod”, Izhevsk, 2001

[11] Awasthi A., Sankaran S., Nikolau M., Meeting the Challenges of Real-Time Production Optimization – A Parametric Model-Based Approach, SPE 111853, 2008

[12] Mubarak S. M., Aramco S., Real-Time Reservoir Management from Data Acquisition Through Implementation: Closed-Loop Approach, SPE 111717, 2008, 7 pp.

[13] Charnyi I. A., Podzemnaya gidrodinamika, Gostoptekhizdat, M., 1963, 346 pp.

[14] Golub Dzh., Van Loun Ch., Matrichnye vychisleniya, Mir, M., 1999, 548 pp.