This article is devoted to the improvement of the methods of well tests interpretation for heavy oil field with fractured reservoirs. Creation of the numerical mathematical model of the well, draining fractured porous reservoir is presented. The developed model will allow to describe the well tests and to identify the type of filtration flow characteristic of fractured reservoirs.
References
1. Ruzin L.M., Morozyuk O.A., Durkin S.M., Neftyanoe khozyaystvo – Oil Industry, 2013, no. 8, pp. 51–53.
2. Ruzin L.M., Morozyuk O.A., Durkin S.M., Neftyanoe khozyaystvo – Oil Industry, 2013, no. 8, pp. 54–57.
3. Ametov I.M., Baydikov Yu.N., Ruzin L.M., Spiridonov Yu.A., Dobycha tyazhelykh vysokovyazkikh neftey (Extraction of heavy viscous oils), Moscow: Nedra Publ., 1985, 205 p.
4. Ruzin L.M. Chuprov I.F., Tekhnologicheskie printsipy razrabotki zalezhey
anomal'no vyazkikh neftey i bitumov (Technological principles of development
of deposits of abnormally viscous oils and bitumens), Ukhta: USTU, 2007,
244 p.
5. Nazarov A.V., Nauka i tekhnologiya uglevodorodov – Science and Technology
of Hydrocarbons, 2002, no. 3.
6. Certificate of state registration of computer programs no. 2013619167.
Gidrogazodinamicheskiy kompleks-simulyatov “Ekaterina” (Hydrogasdynamic
simulation complex "Ekaterina"), author Durkin S.M.
7. Barenblatt G.I., Zheltov Yu.P., Kochina I.N., Prikladnaya matematika i
mekhanika – Journal of Applied Mathematics and Mechanics, 1960, V. XXIV,
no. 5, pp. 852–864.
8. Mirzadzhanzade A.Kh., Khasanov M.M., Bakhtizin R.N., Modelirovanie protsessov neftegazodobychi. Nelineynost', neravnovesnost', neopredelennost'
(Modelling of oil and gas production processes. Nonlinearity, disequilibrium, uncertainty), Moscow-Izhevsk: Publ. of Institute of Computer Science, 2004, 368 p.
9. Kremenetskiy M.I., Ipatov A.I., Gidrodinamicheskie i promyslovo-tekhnologicheskie issledovaniya skvazhin (Hydrodynamic and industrial-technological wells research), Moscow: MAKS Press, 2008, 476 p.
