An approach to the development of a software complex for design process oil recovery

About the authors:

Sergei V. Stepanov, Senior Expert, Tyumen Petroleum Research Center, Tyumen, Russia; Dr. Sci. (Tech.), Professor, Tyumen Petroleum Research Center Specialized Department, School of Natural Sciences, University of Tyumen, Tyumen, Russia; svstepanov@tnnc.rosneft.ru

Alexander A. Zakharov, Dr. Sci (Tech.), Professor, Secure Smart City Information Technologies Department, University of Tyumen; a.a.zakharov@utmn.ru

Alexandr V. Boyko, Deputy Head of IT-Infrastructure Department REC, Tyumen State University

Abstract:

This article deals with the problem of creating a virtual laboratory based on SaaS cloud. This laboratory allows you to use a set of programs (services) for the design of technological modes of oil recovery at production. The three program services included in the cloud SaaS are described. The fi rst is the service to separate production and injection in joint development of reservoirs. The second service is to investigate the causes of the dynamics of complex non-monotonic inundation vertical oil well with a water cut. The third service is to study the dynamics of the gas factor for horizontal oil well in the conditions of gas coning. The main threats to the security of information in virtual environments and cloud platforms are shown. Problem questions of protection of the hypervisor and the server of virtual machine management are considered. Some steps for the protection of information in virtual environments and cloud platforms are suggested.

References:

1. Ivannikov, V. P. Oblachnye vychislenija v obrazovanii, nauke i gissektore  // Parallelnye vychisleniia i zadachi upravlenija: Plenarnie dokladi V Mezhdunar. konf. M., 2010.

2.  Listopad, N. I., Olizarovich, E. V. Modeli fuktsionirovanija "oblachnoj" komputernoj sistemy // Doklady BGUIR. № 3 (65). 2012. Рр. 23-29.

3. Mievatten, A., Oskhaim, R., Selit, S., Grunning, O. Model obrazovanija gazovogo konusa i zavisimosti gazovogo faktora ot tempa otbora v neftegazonosnom plaste s neftianoj otorochkoj, SPE 102390, 2006.

4. Sayarpour, M., Zuluaga, E., Kabir, C. S., Lake, L. W. The Use of Capacitance-Resistive Models for Rapid Estimation of Waterfl ood, SPE 110081, 2007.

5. Altunin, A. E., Semuhin, M. V., Stepanov, S.V. Ispol΄zovanie material΄ nogo balansa i teorii nechetkikh mnozhestv dlia reshenija zadachi razdelenija dobychi pri odnovremennoj razrabotke neskolkikh plastov // Neftianoe khoziajstvo, 05-2002. Рр. 56-60.

6. Stepanov, S. V. Chislennoe issledovanie vlijanija kapilliarnogo davlenija i szhimaemosti na dinamiku obvodnennosti skvazhyny // Neftianoe khoziaistvo, 08-2008. Рр.72-74.

7. Stepanov, S. V., Stepanov, A. V., Eletskiy, S. V. Chislenno-analiticheskij podkhod k resheniu zadachi operativnogo prognozirovanija raboty neftianoj skvazhyny v uslovijakh obrazovanija gazovogo konusa//Neftepromislovoe delo, 2/2013. Pp. 53-58.

8.  Stepanov, S. V., Grinchenko, V. A., Stepanov, A. V., Anuriev, D. A., Dolgov, I. A. Soprovozhdenie razrabotki podgazovoj zony s ispolzovaniem razlichnykh vidov gidrodinamicheskogo modelirovanija na primere Verkhnechonskogo mestorozhdenija // Nauchnotekhnicheskii vestnik OAO "NK "Rosneft". 4-2013. Pp. 38-45.

9. Zaharov, A. A., Boiko, A. V. Bezopasnost NRS dlia intellektualnykh mestorozhdenij //Nauchnij servis v seti Internet:Poisk novykh reshenii:Trudi Mezhdunarodnoi superkompiuternoi konferentsii (17-22 September 2012, Novosibirsk). M.: Izd-vo MGU, 2012. Pp. 63-65.