Submit an Article
Become a reviewer
RU
Vol 199
Pages:
370-374
Download volume:
RUS
Article

Substantiating of plasma-pulse technology use to increase oil recovery on high-viscosity oil fields

Authors:
A. A. Molchanov1
I. E. Dolgii2
A. V. Kozlov3
About authors
  • 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)
Date submitted:
2011-11-03
Date accepted:
2012-01-11
Date published:
2012-12-29

Abstract

The problem to increase of deposit oil recovery with difficult stocks high-viscosity oil and bitumens is considered. Results of experimental research to decrease the effective viscosity of oil samples and increase in mobility are considered at influence of superheated steam with addition in the heat-carrier of insignificant volumes of reagent (kerosene, diesel fuel) in 0,001-0,02 % of weight. It is recommended to apply thermal and plasma-pulse influence on a layer to increase of oil recovery. Results of practical technology application are given in several geological conditions.

Область исследования:
(Archived) Geotechnology for development of liquid and gas mining fields
Keywords:
oil recovery high-viscosity oil bitumen plasma-pulse influence superheated steam
Go to volume 199

References

  1. Guly G.A. Scientific Basis discharge-pulse technology. Kiev, 1990.
  2. Maksyutin A.V. Experimental studies of therheological properties of viscous oils in elastic wave action / automation, telemetry and communications in the oil industry. 2009. N 5.
  3. Mirzadzhanzade A.Kh., Hasanov R.N., Bakhtizin R.N. Modeling of processes of oil production. Nonlinearity, irregular-ity, heterogeneity, Moscow, 2004.
  4. Molchanov A.A. Ageev P.G. Plasma Impulse impacton the oil reservoir, as a multifactorial dynamic dissipative system. Tver, 2011.
  5. Molchanov A.A. New technologies intensify operation of oil and gas wells and enhanced oil recovery: Collection of articles of the Interparliamentary Assembly of the CIS. Saint Petersburg, 1995.
  6. Rogachev M.K., Strizhnev K.V. Management of complications in the extraction of oil. Moscow, 2006.
  7. Tyunkin B.A., Konoplev B.J. Experience aboveground oil development and the main directions of development termoshahtnogo method of oil extraction. Uhta, 1996.
Access statistics
Abstract Views
1445
Full-Text Views
141
Cited
Scopus:
0
Crossref:
0
Article Menu

Similar articles

Investigation of the parameters of stressstate nearbord arrays based sequence miningcombined with open-underground mining diamond mine
2012 A. G. Protosenya, A. D. Kuranov, A. N. Shokov
Analysis of load formation on lining of tunnel constructed in soil with nonlinear behavior
2012 A. G. Protosenya, V. I. Semenov, I. K. Suprun
Numerical modeling of deep excavation structures behavior during construction
2012 A. G. Protosenya, D. A. Potemkin, S. V. Stepanenko
Study of the influence of the form of security structures erected lava following on the mechanism underlying it rocks displacement
2012 V. N. Mokrienko, S. G. Negrei, D. N. Kurdyumov
Numerical modeling of tunnel yield element behaviour
2012 M. A. Karasev, N. A. Belyakov
Influence of magnetic field on the speed metal corrosion tubing rheological properties and product borehole
2012 M. K. Rogachev, M. I. Kuzmin, N. K. Kondrasheva