The particularities of flow simulation in fractured carbonate reservoirs of Yuribcheno-Tahomskaya oil and gas bearing area
- 1 — Ph.D., Dr.Sci. professor National Mineral Resources University (Mining University)
- 2 — Ph.D., Dr.Sci. professor National Mineral Resources University (Mining University)
- 3 — Ph.D., Dr.Sci. professor National Mineral Resources University (Mining University)
- 4 — post-graduate student National Mineral Resources University (Mining University)
Abstract
There is full rationale of the phenomenological model of complicated riphean fractured carbonate reservoirs of Yurubcheno-Tokhomskaya oil-gas bearing area, created for simulation of development process for unique oil and gas deposits. The block discrete organization of these complex structure reservoirs are allow them non-additive and non-linear properties under development. Their marked similarity of their structure in a wide range of sizes, as well as the phenomenon of self-organization characteristic of complex nonequilibrium systems. Based on these production rates and their total cumulative production within such hydrocarbon obey a power law distribution, which is characteristic of the behavior of many nonlinear systems and can be described by Pareto. To implement the suggested model has been written special computer program compatible with the hydrodynamic simulation «Tempest MORE» of «Roxar».
References
- Gladkov E.A. Theoretical and practical creation impossibility of detailed filtration model on basis of geological model // Drilling and petroleum. 2009. N. 7- 8. P .22- 23.
- Kashnikov Yu.A., Gladyshev S.V., Ryazapov R.K., Kontorovich A.A, Krasilnikova N.B. et al. Hydrodynamical modeling of first-priority area in development of Yurubcheno-Tokhomskoye oilfield, with a glance of geomechanical effect of closing the fracture // Petroleum economy.2011. N. 4. P.104-107.
- Gladkov E.A. Specific features of development of the fracture-cavernous reservoirs of Eastern Siberia // Gas industry. 2011. N. 11. P.62-64.
- Mandelbrot B. The Fractal Geometry of Nature / Institute of Computer Science. Moscow. 2002. 654 p.
- Mirzadzhanzade A.H, Ametov I.M., Entov V.M., Ryjic V.M. Underground hydrodynamics: challenges and oppo rtunities// Petroleum economy. 1987. N.2. P. 30- 33.
- Petukhov A.V., Shelepov I.V., Petukhov A.A., Kuklin A.I. Development of a mathematical model of complicated formations containing unconventional oil and gas resources // Gas industry. 2012. N. 676. P.64- 70.
- Petukhov A.V., Shelepov I.V., Petukhov A.A., Kuklin A.I. Power law and self-similarity principle for investigation of fractured reservoirs and hydrodynamical simulation // Oil-and -gas geology. Theory and praktice (Scientific electronic journal). 2012. V.7. N.2. URL: www.ngtp.ru/rub/3/33_2012.pdf
- Kharakhinov V.V., Shlenkin S.I. Petroleum potential of Precambrian strata of Kuyumbinskoye-Yurubcheno-Tokhomsky oil and gas accumulation area. Moscow:Nauchny mir. 2011. 420 p.
- Khasanov M.M., Bulgakova G.T. Nonlinear and non- equilibrium effects in the rheology of complex environments / Institute of Computer Science. Moscow – Ijevsk.2003. 288 p.