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  3 / 2011

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622.276.1/.4
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117036, . , . 60 , 21, . 4,
.: (495) 665-77-03, e-mail: lyssenko@ritek.ru ;
10 , .
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"PRINCIPAL DIFFERENCES OF ANALYTICAL DESIGN METHOD OF OIL FIELDS DEVELOPMENT."
Vladimir Dmitrievich Lyssenko
Russian Innovative Fuel-Power Company JSC "RITEC"
The method is characterized by ten principal differences from other home and foreign design methods providing for its universal and wide application.
Key words: resulting discrepancy of oil replacement; enormous zonal heterogeneity of productive layers; checking of difference between oil physical characteristics and replacing agent.

622.276
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""
. , . , 419,
. (865) 235-94-11, (865) 256-70-03, e-mail: svnipigz@gazprom.ru;
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"TECHNIQUE OF DATA PROCESSING OF WELLS HYDRODYNAMIC STUDIES."
Ramiz Alijavad ogli Gasumov, Vladimir Alexandrovich Tolpaev, Kurban Sapizhullaevich Ahmedov
JSC "SevKavNIPIgaz"
Technique of data processing of well hydrodynamic studies, allowing improving accuracy of formation pressure in the well-drainage area is suggested. Method of quality estimation and reliability of the data received during hydrodynamic studies is specified. Special attention is paid to the fact that results of wells studying should contain data not only of binomial filtration law, but also of other possible (for example, power) filtration laws.
Key words: filtration laws; flow rate; formation pressure; bottom hole pressure; wellhead pressure; bottom hole formation zone; Christmas tree; seepage resistance; permeability; viscosity; temperature; formation.

622.276
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.. , ..

423200, . , . . , 32,
e-mail: vystavka@tatnipi.ru;
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: ; ; .
"RAPID ASSESSMENT METHOD OF HYDRODYNAMIC CONDITION OF OIL WELLS BOTTOM-HOLE ZONE."
O.V. Salimov, R.Z. Ziyatdinov
TatNIPIneft
Full set of well hydrodynamic studies before and after technology application is connected with additional expenditures of money, time and well idle time. The authors of the article analyzed some possibilities and variants of rapid assessment of hydrodynamic studies data by oil producing companies themselves without addressing outside specialists.
Key words: well hydrodynamic studies; bottom-hole zone treatment; rapid assessment of bottom-hole zone condition.

622.276.6
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..

AZ 1012, . , . , 88.
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"STUDYING OF POSSIBILITY OF OIL RECOVERY INCREASE BY USAGE OF REMAINS OF LICORICE ROOT INDUSTRIAL REFINING."
Sh. P. Kazymov
NIPI of Oil and Gas of State Oil Company
Results of experimental studies witness that availability of foam trimming in a formation, being the result of contact of licorice industrial remains with air, stimulates recovery of oil, remained in the formation after water-flooding. Judging by the above-said one may conclude that its usage in formations with hardly-recoverable oil stocks will bring sufficient raise of oil recovery coefficient.
Key words: formation oil recovery; foam trimming; industrial remains; licorice production.

622.276.43
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..
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450078, . , . , 96/2,
.: (8347) 228-18-75, e-mail: npo@ngt.ru;;
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"WATER-FLOODING SYSTEM OPTIMIZATION BY MEANS OF DRAWING MAPS OF EXISTING AND ACCUMULATED COMPENSATION ILLUSTRATED BY KOLGANSKY THICKNESS OF VAKHITOVSKY OIL FIELD."
M.S. Antonov
NPO "Neftegaztechnologia"
The article suggests method of water-flooding efficiency evaluation by means of drawing maps of liquid discharge compensation by water pumping (three variants with account of only producing wells, only injecting wells and both producing and injecting wells) with further water-flooding system optimization by means of alteration of water pumping and discharging regimes.
Key words: oil; well; compensation; stocks; compensation maps; method; activities.

628.276.8
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.. 1, .. 2, .. 2
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2
423200, . , . . , 32,
e-mail: ontonti@tatnipi.ru.;
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"FIELD COMPARATIVE TESTING OF CENTRIFUGAL AND MULTI-PHASE PUMPS."
L.P. Pergushev 1, R.B. Fattakhov 2, R.Z. Sakhabutdinov 2
"Nauka, Ltd." 1
"TatNIPIneft" 2
One salvation of problem of gathering and utilization of sulfur dioxide is connected with usage of multi-phase pumps (MPhP). However up to now no direct comparison of multi-phase pumps with centrifugal pumps (CP) was initiated.
Key words: field comparative testing; emulsion resistance and water-content; electric power consumption.

622.276
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AZ 1010, . , , 20,
.: (+994 12) 598-49-37.
, , - - , 15, 9518, 3013, .
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"ANALYSIS OF CORROSION RESISTANCE OF BALL VALVE PARTS OF WELL ROD PUMPS."
Lala Samaddin Hadjieva
Azerbaijan State Oil Academy
The article discusses issues related to analysis of measures required for corrosion protection, development and usage of corrosion-resistant coatings, as well as to technological methods of increasing corrosion resistance of steels ShKh15, 9518Sh, 3013 (15, 9518, 3013), used for manufacturing parts of ball valves.
Key words: corrosion; saddle; valve; alloy; steaming unit; implantation.

622.276.53.054.4
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450097, . , . , 89,
./ (347) 292-77-52, 292-77-53, . 1713, e-mail: Kan.TV@ozna.ru;
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"EXPERIMENTAL STUDIES OF COEFFICIENT OF COUPLING ROD FRICTION ON PIPES."
Marat Davletovich Valeev, Mars Vazykhovich Akhmetzyanov, Ilvir Razinovich Sattarov, Alenik Grigorievich Gazarov, Atlas Misbakhovich Bagretdinov
"OZNA-Management, Ltd."
The article submits results of bench testing of coupling rods friction on pump-compressor pipes during operation of wells with screw pumps. Natural samples of rods and pipes, formation water, oil and water-oil emulsions were studied at rods rotation frequency of 50, 100 and 150 revolutions per minute. The curve for definition of coefficient of new rods friction on pipes, depending on Zommerfeld parameter, is drawn. The way of friction decrease in time is shown as well.
Key words: friction coefficient; semi-dty friction, Zommerfeld parameter, laboratory stand, coupling rod; pump-compressor pipes; viscous friction.

622.24: 532.5
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060002, . , , 1,
.: 8(7122)365409, e-mail: maks_ bisengali@mail.ru;
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"SOME FEATURES OF PULSATING MOVEMENT OF HIGH-VISCOSITY PLASTIC OILS."
Maks Daulbaevich Bisengaliev
Atyrau Institute of Oil and Gas
Rheological characteristics of the produced fluid are required to be taken into consideration to improve operational efficiency, establish optimal production mode as well as to raise effectiveness of various impacts on a formation.
Key words: high-viscosity plastic oils; rheological characteristics; viscous-elastic-plastic liquids.

622.276
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.. , .. , .. , ..
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450078, . , . , 96/2,
.: (8347) 228-18-75, e-mail: npo@ngt.ru;;
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: .
"ALTERATION OF LAMINAR MOVEMENT OF HOMOGENEOUS LIQUID IN THE FIELD OF GRAVITATIONAL FORCE AND WITH AVAILABILITY OF DISTRIBUTED SOURCES (PERFORATION HOLES) IN A HORIZONTAL HOLE."
T.F. Manapov, M.A. Fatkhlislamov, V.V. Firsov, T.G. Kazakova
NPO "Neftegaztechnologia"
The article considers alteration of laminar flow structure in a horizontal hole in terms of constant disturbance gravitation force and perforation holes.
Consideration of perforation zone showed that structure of flow strongly depends on ratio of speeds in a hole and in the zone of perforation holes. If values of speeds are comparable, cutting off some part of a hole and blocking off some liquid, moving along the hole in perforation zone may be observed. Well productivity sharply decreases in this case.
Key words: laminar flow.

622.276.2.038
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1, 1, 1, 2, 2, 2, 2, 2
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443122, . , / 10780, 8(846)9936188, e-mail: NHIsamara@obp.ru, AVishnyakova.NHI@mail.ru;
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"RESEARCH RESULTS AND EXPERIENCE IN APPLICATION OF RDN-U REAGENT IN TECHNOLOGICAL KILLING FLUIDS DURING WELL REPAIR."
B.V. Rozheluk 1, A.H. Ibragimov 1, A.A. Hakimov 1, K.N. Ivontiev 2, V.Ya. Kabo 2, A.V. Vishnyakova 2, A.A. Mileiko 2, I.P. Novov 2
JSC "GazpromneftNoyabrsk" 1
"Neftechimengineering, Ltd." 2
This article presents results of research and experience in application of surface-active RDN-U reagent in technological killing fluids with the purpose of negative influence reduction of traditional killing fluids of water and salt-water basis.
Key words: killing fluid; surface-active reagent; damage of formation bottom-hole zone.

665.622.43
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1, 2
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423450, , . , . , 9,
e-mail: re1zeda@mail.ru;
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423236, , . , . . , 32.
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"SOME ASPECTS OF EMULSION DESTRUCTION DURING INTERACTION OF WATER GLOBULES WITH WALLS OF PIPELINES AND EQUIPMENT."
Rezeda Bashirovna Shigapova 1, Valentin Petrovich Tronov 2
GOU VPO "Almetyevsk State Institute of Municipal Service" 1;
TatNIPIneft 2
The article submits specified formulas of the required pipe length in oil and gas gathering system, tubular devices of RDP type and drop forming equipment, sufficient for achievement of the set depth of oil emulsion destruction at the expense of drops destruction on tubular elements walls and contacting with each other in oil flow.
Key words: hydrophilic walls of equipment; a drop (globule of water); equipment surface; emulsion; destruction.

 

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