EFFICIENCY OF METHOD OF ELECTRICAL DISCHARGE IMPACT ON THE WELL-BOTTOM ZONE FOR INTENSIFYING THE OIL INFLOW IN TERMS OF INDUSTRIAL APPLICATION

Details

Parent Category: Geo-Technical Mechanics, 2014

Category: Collection of scientific papers «Geotekhnicheskaya Mekhanika» Issue 114

UDC 622.276.6:622.245.5:537.528

Authors:

O.P. Smirnov, Ph.D. (Tech.), Reseacher,

I.S. Shvets, Ph.D. (Phys.-Math.), Senior Reseacher,

V.G. Zhekul, Ph.D. (Tech.), Senior Reseacher,

S.G. Poklonov, Ph.D. (Tech.), Senior Reseacher

(IPPT NAS of Ukraine)

V.A. Kuchernuk, Ph.D. (Tech.), Senior Reseacher

(SRPI Public company «Ukrnafta»)

Annotation:

The article presents analytical results of method of electric discharge impact on the well-bottom zone for intensifying the oil inflow in terms of industrial application in Russian and Ukrainian oilfields. The results denotes a possibility of effective repeated application of the method of electric discharge impact on the well-bottom zone for intensifying the oil inflow. This fact together with other positive factors (the method cheapness, mobility, ecological compatibility, etc.) make this method more attractive if compare with other methods of intensification.

Analysis of results of industrial application of the method of electric discharge impact on the well-bottom zone for intensifying the oil inflow (the method effect was 91%) confirmed its effectiveness and proved its suitability for being applied in the oil producers in order to increase the well debit. Repeated application of the method is possible when output falls.

Keywords:

electric discharge impact , oil-producers, debit of the well, intensification of oil production

References:

1. Ambartsumyan, A.K. (2010), “Problem of exhaustion of reserve of oil: major factors and ways of its overcoming”, Neft, gaz i biznes, no.10, pp. 13-19.

2. Yakutseni, V.P., Petrova, Yu.E. and Sukhanov, A.A. (2009), “Nonconventional resources of hydrocarbons - a reserve for completion of a raw-material base of oil and gas of Russia”,vol.4, no.1, [Online] – available at: http://www.ngtp.ru/rub/9/11_2009.pdf.

3. Vaganov, Yu.V., Zozulya, G.P., Kustyshev, A.V., Dmitruk, V.V., Rakhimov, N.V. and Obidnov, V.B. (2007), “Problems, prospects and realities of service technologies of repairs of wells”, Neftegazovoe delo, Vol.5, no.2, pp.58-63.

4. Myagkikh, M.A. (2006), “Necessity of completeness of the view an expense for exploration, development and operation of oilfield”, Audit i finansovyu analiz, no.5, pp.143-152.

5. Kudinov, V.I. (2004), Osnovy neftegazopromyslovogo dela [The basics of oil and gas business], Institut kompyuternykh issledovaniy; Udmurtskiy gosuniversitet, Moscow-Izhevsk, Russia.

6. Bashkatov, D.N., Drakhlis, S.L., Safonov, V.V. and Kvashnin, G.P. (1988), Spetsialnye raboty pri burenii i oborudovanii skvazhin na vodu [Special works in drilling and equipment of water wells], Nedra, Moscow, Russia.

7. Smirnov, O.P. (2006), “The Comparative analysis of the basic methods of intensive allocation of wells”, Geotekhnicheskaya Mekhanika [Geo-Technical Mechanics], no.64, pp.133-139.

8. Burger, J., Sourieau, P. and Combarnous, M. (1988), Termicheskie metody povysheniya nefteotdachi plastov [Recuperation assistee du petrole les methodes  thermiques], Translated in Filanovskiy, V.Yu. (ed) and Shpilrayn, E.E. (ed), Nedra, Moscow, Russia.

9. Maksutov, R.A., Sizonenko, O.N., Malyushevskiy, P.P. (1985), “The use of electric-discharge of the impact of bottom-hole zone”, Neftyanoe khozyaystvo, no.1, pp.34-35.

10. Gulyu, G.A. (1990), Osnovy razryadnoimpulsnykh tekhnologiy [The basics discharge-pulse technologies], Naukova dumka, Kiev, Ukraine.

11. Zhekul, V.G., Kuchernyuk, V.А., Melkher, Yu.I., Poklonov, S.G., Smirnov, О.P. and Shvets, I.S. (2012), “Electrical discharge treatment of wells in oil fields of Ukraine”, Visnyk NTU HPI, no.21, pp.72-77.

12. Kuchernyuk, A.V., Kuchernyuk, V.А., Davidenko, S.M., Sova, V.M. and Maksimchuk, M.Yu. (2006), “Shock-wave technology for intensification of oil and gas”, Neftepromyslovoe delo, no.5, pp.42-46.

13. Zhekul, V.G., Poklonov, S.G. and Shvets, I.S. (2006), “Discharge submersible installations with stabilization of operating parameters”, Neftyanoe khozyaystvo, no.2, pp.89-91.

14. Kramer, H. (1975) Matematicheskie metody statistiki [Mathematical methods of statistics], Transleted by Monin, A.S. and Petrov, A.A., in Kolmogorova, A.N. (ed.), Mir, Moscow, Russia.

About the authors:

Smirnov Oleksiy Petrovych, Candidate of Technical Sciences (Ph.D), Researcher in Department of Pulse Treatment of Disperse Systems, Institute of Pulse Processes and Technologies under the National Academy of Science of Ukraine (IPPT, NAS of Ukraine of Ukraine), Mykolayiv, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Shvets Ivan Safronovych, Candidate of Physics and Mathematics (Ph.D), Head of Department of Pulse Treatment of Disperse Systems, Institute of Pulse Processes and Technologies under the National Academy of Science of Ukraine (IPPT, NAS of Ukraine), Mykolayiv, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Zhekul Vasiliy Grigoryevich, Candidate of Technical Sciences (Ph.D), Senior Researcher in Department of Pulse Treatment of Disperse Systems, Institute of Pulse Processes and Technologies under the National Academy of Science of Ukraine (IPPT, NAS of Ukraine), Mykolayiv, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Poklonov Sergey Georgievich, Candidate of Technical Sciences (Ph.D), Senior Researcher in Department of Pulse Treatment of Disperse Systems, Institute of Pulse Processes and Technologies under the National Academy of Science of Ukraine (IPPT, NAS of Ukraine), Mykolayiv, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Kuchernyuk Valentin Аntonovich, Candidate of Technical Sciences (Ph.D), Head of Group in Oil-Industrial Department, Scientific-Research and Project Institute, Public Company «Ukrnafta» (SRPI Public company «Ukrnafta»), Kiev, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

• < Prev
• Next >