Voir la notice de l'article provenant de la source Math-Net.Ru
@article{MM_2018_30_7_a5,
author = {A. V. Akulich and A. V. Zvyagin and D. A. Pestov and V. V. Tyurenkova and Li Kairui},
title = {Interaction of static hydraulic fracture under constant fluid pressure with natural fracture},
journal = {Matemati\v{c}eskoe modelirovanie},
pages = {79--92},
publisher = {mathdoc},
volume = {30},
number = {7},
year = {2018},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/MM_2018_30_7_a5/}
}
TY - JOUR AU - A. V. Akulich AU - A. V. Zvyagin AU - D. A. Pestov AU - V. V. Tyurenkova AU - Li Kairui TI - Interaction of static hydraulic fracture under constant fluid pressure with natural fracture JO - Matematičeskoe modelirovanie PY - 2018 SP - 79 EP - 92 VL - 30 IS - 7 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/MM_2018_30_7_a5/ LA - ru ID - MM_2018_30_7_a5 ER -
%0 Journal Article %A A. V. Akulich %A A. V. Zvyagin %A D. A. Pestov %A V. V. Tyurenkova %A Li Kairui %T Interaction of static hydraulic fracture under constant fluid pressure with natural fracture %J Matematičeskoe modelirovanie %D 2018 %P 79-92 %V 30 %N 7 %I mathdoc %U http://geodesic.mathdoc.fr/item/MM_2018_30_7_a5/ %G ru %F MM_2018_30_7_a5
A. V. Akulich; A. V. Zvyagin; D. A. Pestov; V. V. Tyurenkova; Li Kairui. Interaction of static hydraulic fracture under constant fluid pressure with natural fracture. Matematičeskoe modelirovanie, Tome 30 (2018) no. 7, pp. 79-92. http://geodesic.mathdoc.fr/item/MM_2018_30_7_a5/
[1] Betelin V. B., Smirnov N. N., “O probleme importonezavisimosti v neftegazovoi otrasli. Vychislitelnoe modelirovanie aktivnykh vozdeistvii na neftianye plasty”, Matematika i informatsionnye tekhnologii v neftegazovom komplekse, Surgutneftegaz, Surgut, 2017, 8–45
[2] Smirnov N. N., Kiselev A. B., Nikitin V. F., Zviagin A. V., Smirnova M. N., Tiurenkova V. V., “Predskazatelnoe modelirovanie protsessov sozdaniia treshchin gidravlicheskogo i gazovogo razryva i posleduiushchego vvedeniia ikh v ekspluatatsiiu”, Puti realizatsii neftegazovogo potentsiala Khanty-Mansiiskogo avtonomnogo okruga, v. 1, Izd. tsentr SurGU, Iugry, 2017, 22 pp.
[3] Smirnov N. N., Kisselev A. B., Nikitin V. F., Smirnova M. N., Tyurenkova V. V., “Underground Hydraulic Fracturing Technology Computer Simulations”, Proc. The IACGE International Symposium on Geotechnical and Earthquake Engineering, IACGE2016 (Beijing, China, 2016, October 11–13), 194–202
[4] Pestov D. A., Smirnov N. N., Akulich A. V., Tiurenkova V. V., “Matematicheskoe modelirovanie zadachi rasprostraneniia treshchiny gidrorazryva”, Vestnik kibernetiki, 2017, no. 1(25), 88–93
[5] Akulich A. V., Smirnov N. N., Tiurenkova V. V., Lapko A. V., Galkin V. A., Matematicheskoe modelirovanie rasprostraneniia treshchiny gidrorazryva, Izdatelskii tsentr SurGU, Surgut, 2016, 123 pp.
[6] Crouch S. L., Starfield A. M., Boundary element methods in solid mechanics, Allen Unwin, London–Boston, 1983 | MR | Zbl
[7] Tuhkuri J., “Dual boundary element analysis of closed cracks”, International Journal for Numerical Methods in Engineering, 40:16 (1997), 2995–3014 | 3.0.CO;2-6 class='badge bg-secondary rounded-pill ref-badge extid-badge'>DOI | Zbl
[8] Phan A. V., Napier J. A. L., et al., “Symmetric-Galerkin BEM simulation of fracture with frictional contact”, International Journal for Numerical Methods in Engineering, 57:6 (2003), 835–851 | DOI | MR | Zbl
[9] Wang J., Crouch S. L., “An iterative algorithm for modeling crack closure and sliding”, Engineering Fracture Mechanics, 75:1 (2008), 128–135 | DOI
[10] Chuprakov D. A., Akulich A. V., Siebrits E., Thiercelin M., Hydraulic Fracture Propagation in a Naturally Fractured Reservoir, SPE 128715-PP
[11] Napier J. A. L., RIFT simulator, Personal communications, 2009
[12] Akulich A. V., Zvyuagin A. V., “Vzaimodeistvie treshchiny gidrorazryva s estestvennoi treshchinoi”, Izv. RAN MZhG, 2008, no. 3, 104–112