Download - Zorya Gas Turbines
IN THE MARINE, POWER AND GAS INDUSTRYIN THE MARINE, POWER AND GAS INDUSTRY
“ZORYA-MASHPROEKT”Nikolaev, Ukraine
“ZORYA-MASHPROEKT”Nikolaev, Ukraine
The State Enterprise “Zorya-Mashproekt” Gas Turbine Reasearch & Production Complex has a 50-years experience in designing & production gas turbines for Navies, commercial and passenger vessels, power plants and gas piping units and drivers for production equipments. The turbines developed for marine application have been excellently proven on land. Since 1953 over 3000 marine & industrial gas turbines have been produced and supplied. Thousands of varies reduction gears for different class displacement ships, hovercrafts & hydrofoils also for industrial application have been produced.
Ships of 20 countries worldwide, over 60 power stations, more than 100 gas pipelines compressor stations in Russia, Ukraine, Kazakhstan, Belarus, Czechia, Canada, Azerbaijan, Iran and other countries are equipped with Zorya-Mashproekt gas turbines. The total power of the turbines exceeds 24 million kW and total firing time over 26 million hours.
According to GAZPROM statistics, the gas pumping units (GPU) driven by our gas turbines have been acknowledged most reliable comparing to driven by another companies. They have highest mean value of technical utilization coefficient, maximum time between failure and the highest availability factor.
Owing to the constant work on support and upgrade of the technical level, the of-time of many turbines exceeded 80000 firing hours without factory repair. UGT16000 (DR59) second generation leading turbine have accumulated over 35000 hours, UGT25000 fourth generation turbine over 28000 hours, UGT10000 fourth generation turbine has been put in to trial-commercial operation at Kirovogradskaya compressor station (Ukraine) in 2002.
“Zorya-Mashproekt” gas turbines were created for naval applications; they are also adjusted for working off-shore, on floating & stationary oil & gas platforms.
FROM PROJECT THROUGH DELIVERYFROM PROJECT THROUGH DELIVERY
The specialist of «Mashproekt» (Scientific Research & Experimental-Design Works Center) is constantly working at creating new & upgrading early-developed gas turbines widely using modern sophisticated CAD\CAM systems.
“Zorya-Mashproekt” facilities & laboratories have been equipped with up-to-date tools, equipment & technologies, the personnel there is well trained. High-temperature steel & alloy precision casting, precise isothermal & impulse extrusion, electro-beam welding, electro-beam & plasma coatings, laser cutting, electric methods of metal treatment-these make an incomplete list of advanced technologies applied at the enterprise.
Possessing tooling allows realizing on time & qualitative production preparation.
Gas turbines parts & assembling operational development & testing are held on the test-beds of the Scientific Research Department. 11 test-beds for full-scaled turbines & units testing are situated on the main territory, & 5 test-beds are in Kaborga village where is a marine test station, & a special loading gas ring for testing GPU is built.
The specialist of the complex perform contract supervision, adjustment & alignment, guaranteed maintenance of prototype & stock-produced items on-site of the customer, and also after-sale maintenance through the whole service life.
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GAS TURBINE ENGINESFOR GAS PIPELINES COMPRESSORS DRIVEGAS TURBINE ENGINESFOR GAS PIPELINES COMPRESSORS DRIVE
“Zorya-Mashproekt” turbines for gas pumping incorporate merits of aviation engines (light weight & overall dimensions, easy transportation, ability fo replacement of the whole unit or its module), as well as reliability & long service life of industrial engines.
The turbines are 3-shaft design: low- and high-pressure compressors driven by own axial turbines, unified for each turbine type and a free power turbine. The combustion chamber is can-annular type.
Each type of the gas turbine has several modifications different in speed, power turbine rotation direction and support construction, which allow to use them as part of domestic and import gas pumping units without gearings.
“Zorya-Mashproekt” gas turbines are adopted for lubrication by same lubrication oil as driven compressor what permits to simplify the compressor stations lubricating system. As a rule, the turbines are equipped with electrical starting devices.
FeaturesFeatures
1 - Variable geometry inlet guide vane2 - Low pressure compressor (LPC)3 - High pressure compressor (HPC)4 - Combustion chamber (CC)5 - High pressure turbine (HPT)6 - Low pressure turbine (LPT)7 - Power turbine (PT)8 - Auxiliary drive gearbox9 - Electric starter10 - Frame
UGT 3000 (DE76)UGT 3000 (DE76)
Compressor - axial, 8 stages LPC,
9 stages HPC.
Pressure ratio - 13,5.
Combustion chamber - can-annular
reverse flow with 9 combustion 0liners, TIT - 1020 C.
Gas generator turbines - axial, single
stage LPT and HPT.
3-stage power turbine speed - 9700 rpm.
Start - electric motors AC U=380 V,
N= 70 kW.
Compressor - axial, 8 stages LPC,
9 stages HPC.
Pressure ratio - 14/15,3.
Combustion chamber - can-annular
reverse flow with 10 combustion оliners, TIT - 1015 - 1100 C.
Gas generator turbines - axial, single
stage LPT and HPT.
Power turbine speed - 3000, 4800,
5400, 8200, 9700 rpm.
Start - electric motors AC U=380 V, N=70 kW.
UGT 6000, UGT 6000+(DT71, DV71) UGT 6000, UGT 6000+(DT71, DV71)
Power, kW
Efficiency, %3Heat rate, nm /kW-hr
Exhaust gas mass flow, kg/sec
0Ambient air temperature, C
Effic
ien
cy, %
Po
we
r, M
W
0Exhaust gas temperature, C
Dimensions (LxWxH), m
Weight, ton
0Ambient air temperature, C
Effic
ien
cy, %
0Ambient air temperature, C
0Ambient air temperature, C
Po
we
r, M
W
0Exhaust gas temperature, C
Dimensions (LxWxH), m
Weight, ton
EngineEngine
Power, kW
Efficiency, %3Heat rate, nm /kW-hr
Exhaust gas mass flow, kg/sec
Note: ISO condition
UGT 10000 (DN70, DI70, DU70)UGT 10000 (DN70, DI70, DU70)
Compressor - axial, 9 stages LPC,
9 stages HPC.
Pressure ratio - 19,5.
Combustion chamber - can-annular
reverse flow with 10 combustion 0liners, TIT - 1200 C.
Gas generator turbines - axial, single
stage LPT and HPT.
Power turbine speed - 3600, 4800, 6500 rpm.
Start - electric motors AC U=380 V,
N= 70 kW.
Power, kW
Efficiency, %3Heat rate, nm /kW-hr
Exhaust gas mass flow, kg/sec
0Exhaust gas temperature, C
Dimensions (LxWxH), m
Weight, ton
Po
we
r, M
W
Effic
ien
cy, %
0Ambient air temperature, C
0Ambient air temperature, C
Compressor - axial, 9 stages LPC,
10 stages HPC.
Pressure ratio - 19,6.
Combustion chamber - can-annular
reverse flow with 16 combustion оliners, TIT - 1075 1160 C.
Gas generator turbines - axial, single
stage LPT and HPT.0Power turbine speed - 3 00, 5300 rpm.
Start - electric motors AC U=380 V, N= 2 х 70 kW.
Power, kW
Efficiency, %3Heat rate, nm /kW-hr
Exhaust gas mass flow, kg/sec
0Exhaust gas temperature, C
Dimensions (LxWxH), m
Weight, ton
Engine Engine
0Ambient air temperature, C
66
UGT 15000, UGT 15000+ (DB90, DG90, DA91)UGT 15000, UGT 15000+ (DB90, DG90, DA91)
0Ambient air temperature, C
Po
we
r, M
W
Effic
ien
cy, %
4
8
12
16
20
24
-35 -25 -15 -5 5 15 25 35 4524
26
28
30
32
34
-35 -25 -15 -5 5 15 25 35 45
o
10
15
20
25
30
35
-35 -25 -15 -5 5 15 25 35 45
22
26
30
34
38
42
-35 -25 -15 -5 5 15 25 35 45
Power turbine - axial, 3 stages.
Power turbine speed - 5300 rpm.
Start - electric motors AC U=380 V,
N=3 x 70 kW.
Compressor - axial, 7 stages LPC,
9 stages HPC.
Pressure ratio - 12,8.
Gas generator turbines - axial, 2
stage LPT and HPT.
Combustion chamber - can-annular 0with 10 combustion liners, TIT - 865 C.
0Ambient air temperature, C
Po
we
r, M
W
Effic
ien
cy, %
Power, kW
Efficiency, %3Heat rate, nm /kW-hr
Exhaust gas mass flow, kg/sec
0Exhaust gas temperature, C
Dimensions (LxWxH), m
Weight, ton
0Ambient air temperature, C
Power, kW
Efficiency, %3Heat rate, nm /kW-hr
Exhaust gas mass flow, kg/sec
0Exhaust gas temperature, C
Dimensions (LxWxH), m
Weight, ton
o
0Ambient air temperature, C 0Ambient air temperature, C
Po
we
r, M
W
Effic
ien
cy, %
Compressor - axial, 9 stages LPC,
9 stages HPC.
Pressure ratio - 21.0
Combustion chamber - can-annular
reverse flow with 16 combustion 0liners, TIT - 1245 C.
Gas generator turbines - axial, single
stage LPT and HPT.
Power turbine speed - 3600, 4850 rpm.
Start - electric motors AC U=380 V,
N=3 x 70 kW.
UGT 16000 (DG 59)UGT 16000 (DG 59)
UGT 25000 (DG80, DI80, DN80, DU80)UGT 25000 (DG80, DI80, DN80, DU80)
DE76 gas turbine modification with speed 9700 rpm was developed for the direct drive “Prague Energo” 3RSC56/3RSD56 centrifugal compressor without gearbox. This unit is used for gas pumping in and out at underground gas storage in Czech.
The turbine has absolutely new two channel burners for NOx reduction and a special cage design with many layer sound isolation. The DE76E gas turbine can be used also in “URAL GPU-3C” compressor set developed by “ISKRA SPE”, Perm, Russia.
“ZORYA-MASHPROEKT” Gas Turbines For New & Modernized Gas Pumping Units
“ZORYA-MASHPROEKT” Gas Turbines For New & Modernized Gas Pumping Units
Gas pumping unit driven by DE76E at Stramberkunderground gas storage engine room
Gas pumping unit GPA-C-6,3S with Dt71 gas turbine
The UGT6000 (DT71) gas turbine engine is used in GPU-C-6,3C unit produced by the “FRUNZE” company as serial production. It is also used to replace NK-12ST aeroderivated engine while upgrading GT-750-6 gas pumping units.
This gas turbine is possible to be used for upgrading GTN-6 and GT-6-750 units produced by Russian company “Turbomotorworks”.
There is UGT6000+ boosted version with rated power up to 8MW.
Experience of using “Zorya-Mashproekt” gas turbines as integrated parts of gas pumping units achieves over 25 years. To date most of the gas pumping units based on the DR59 gas turbine has exhausted their service life. The specialists of the company have developed the concept of using the third & fourth generation gas turbines in gas pumping units of compressor stations under construction & modernization for drive replacement, both domestic & foreign ones.
34 modernization projects have been developed for gas pumping units in operation. They include replacement of out-of-date drives with exhausted life by modern, more economical “Zorya-Mashproekt” gas turbines. As a result of such reconstruction, at the working compressor station the modern technical level is being provided something nonstop. The greatest economical effect attributes to the upgrading of the working compressor shops in the conditions, when the new shop construction is either impossible or extremely difficult (in the mountainous pipeline sections, frozen grounds of the Extreme North, in the swamped territories when there are problems with land a purchasing).
“Zorya-Mashproekt” performs projects of on-site drive adjustment in the units under upgrading. It also prepares equipment sets document necessary for gas pumping units upgrading. They include field changing of the equipment available on site (blowers, supports, air intake devises, exhausters, serving the auxiliary equipment). By the customer's desire, the experts of the company can perform automatic control system engineer's project of the units under upgrading. To increase independence of the compressor stations work when the outer power source is off & with the purpose to decrease cost on buying electric power, “Zorya-Mashproekt” suggests using free space after out-of-date engines removed for construction own power station for providing compressor station uninterruptible power supply. “Zorya-Mashproekt” offers power stations with rated power 2.5, 6, 16 MW as well as turbo-expander generating sets.
The UGT10000 fourth generation gas turbine has been developed with several modifications:
DN70L with 4-stage left-rotated power turbine and rated speed 4800 rpm for GTC-10-2, GTC-10-4 and GTU-10 gas pumping units upgrading;
DI70P with 3-stage right-rotated power turbine and rated speed 6500 rpm for GTC-10I gas pumping units upgrading;
DI70L with 3-stage left-rotated power turbine and rated speed 6500 rpm for GT-750-6 gas pumping units upgrading;
DU70L gas turbine with modernized flowing part to the power of 16MW by means of steam injection with 4-stage left-rotated power turbine and rated speed 4800 rpm is used in “Aquarius” GPU-16K unit.
GTK-10-4 gas pumping unit modernizationGTK-10-4 gas pumping unit modernization
Air inlet Conteiner Intermediate bearing
Gas compressor
Gas compressor lubricating oil tank
Air for gas turbine cooling
Modernized gas pumping unit GTK-10-4 with DN70L gas turbine at CS Kirovogradskaya, Ukraine
GTK-10-I gas pumping unit modernization via replacing old MS3002 by new one DI70P gas turbine
GTK-10-I gas pumping unit modernization via replacing old MS3002 by new one DI70P gas turbine
Auxiliary mechanism gearbox
Auxiliary alternator
Air inlet modernization
Exhaust gas ventDI70P
Auxiliary mechanism gearbox
Auxiliary mechanism gearbox
Modernized GTK-10-4 gas pumping unit with air inlet chamber and lubricating oil unit in the assembling workshop
Container with gas turbine is manufactured with highest noise insulation degree. Turboblock and air inlet unit integral design gives opportunity to reduce building and assembly jobs period.
Gas compressor lubricating is integrated with gas turbine lubricating oil system, this design gives opportunity to exclude electrically driven pump.
One of the features of this upgrading is the new gas turbine “building in” the acting design scheme of the original unit maintaining all of its functions including house generating drive & united lubricating oil system.
Frequency converter provides constancy of the frequency of the electrical energy produced by the house generator. This converter is used also for gas turbine starter control and provides smooth gas pumping unit starting.
The UGT 15000 gas turbine engine has the following modifications:
DG90L, DG90L2 with power turbine frequency 5300 rpm of left rotation to be used in new GPUs of compressor shops:
GPA-C-16S - developed by "Frunze" company (Sumy, Ukraine);
GPA-16 "Ural" - developed by "Iskra" company ((Perm, Russia);
GPA-16 "Volga" (Kazan, Russia);GPA-16 "Neva" (St. Peterburg, Russia);while upgrading GPUs increasing the drive
power:GTK-10-4 (GTK-10-2) developed by NZL (St.
Peterburg, Russia)GPU-10 developed bu "Zorya"-"Mashproekt"
(Nikolayev, Ukraine),GPU-16 developed by "Frunze" company (Sumy,
Ukraine).- DG90P with power turbine speed of 5300 rpm
of right rotation for upgrading Coberra-183 imported units by Cooper -Rolls company.
The main pattern of DG90P engine was installed in 1994 at Bogandinskaya compressor station (Surgutgasprom) as a part of Coberra-182 upgraded unit.
Two compressor shops were upgraded with DG90P engines at Bogandinskaya and Turtasskaya compressor stations.
Some compressor stations with actual efficiency of no more then 20% were upgraded with DG90L2 engine (Surgutgasprom & Volgotransgas companies).
GPU-10 (GPU10-01) upgrading is held by means replacing DR59L second generation engine rating at 10 MW & efficiency of 27% with DG90L rating at 16 MW.
While upgrading new DG90L installation provided housed in the finished serial block from the reserve recourse stock.
They perform upgrading or replacement of the blower supercharger, complex air cleaner, gas exhaust path, automatic control system, as well as ventilation, fuel & lubrication systems changes.
At Vyngapurovskaya compressor station there's also a shop equipped with upgraded GPU16-16S units powered by DG90L2.
DG90L2 engnes as part of new gas pumping units are used by gas transportation & production companies of Ukraine, Russia, Belarus, Turkistan (over 50 engines? As well as to power ammonia compressors at Odessa Port Plant (two engines).
"Zorya"-"Mashproekt" has totally produced over 140 UGT15000 engines in different modifications. The leading engines at Surgutgasprom compressor station have accumulated over 37.00 fire hours.
The gas pumping unit diagram
Gas pumping unit GPA-16C driven by UGT15000 gas turbine
Container with ammonia compressordriven by UGT15000 gas turbine
at Odessa Port Plant
Luboil unit
Inlet air filter
Gas turbineengine
Noise killer
GTE cooler GTE containerSupercharger
Sofievskaya compressor station, Ukraine Modernized GPA-25/76 gas pumping in the Sofievskaya compressor station
engine room
Gas pumping unit GPA-26/76 modernization project with using of DN80L gas turbine
Gas pumping unit GPU-16A
Bt their design & parameters turbines of UGT16000 family (DR59, DJ59) are of the second generation, but they have proved themselves as the most reliable at the gas pumping stations.
10MW DR59 with efficiency of 28% is used in GPU-10 & GPU-10-01. “Zorya-Mashproekt” and “KRTZ VOSKHOD” have produced 536 turbines totally. The leading DR59 turbines have accumulated over 100000 firing hours.
DJ59 with efficiency 30% and rated power 16MW is used in GPU-16 developed by Ukrainian company “FRUNZE”. Totally over 120 units like this have been manufactured.
Beginning in 1992, DH59L2 have been widely used for replacing out-of-date drives while upgrading GTC-10-4 & GPU-25/76 units developed by “Nevskiy Zavod” from St. Petersburg, Russia, and replacing COBERRA-182 gas generator from Cooper-Rolls” company. 33 DJ59L2 turbines are working in the upgraded units at 9 compressor stations of “Permtransgas” ltd and “Vologotransgas” ltd companies.
UGT25000 fourth generation gas turbine also has several versions of power turbines in speed & rotation direction:
DN80L with speed of 3300 rpm is used for upgrading GPU-25/76 at Ukrainian & Russian gas pipelines as well as at underground gas storages in Gasli (Uzbekistan).
DI80P with speed of 4850 rpm & right rotation is intended to replace MS5003 engines (manufactured by General Electric) in GTC-25I units produced Nuovo Pignone.
DU80L with speed 4850-5000 rpm and left rotation is intended for “URAL GPU-C-25” and GPU-25C gas pumping units manufactured by Russian company “ISKRA” and Ukrainian company “FRUNZE”.
Over 40 DN80L gas turbines have been produced and leading turbine has been accumulated over 28000 firing hours.
It increases efficiency & power of the units, decreasing contaminant emission in combustion products. Thus, 16MW gas pumping unit GPU-16K driven by UGT10000 gas turbine working in a heat recovery unit of “Aquarius” type with energetic & ecological steam injections and water recovery from combustion products. First GPU-16K is in service at Stavischi compressor station, “Cherkassytransgas”, Ukraine.
The merits of the «Aquarius» are high efficiency up to 43% in ISO condition and low emission. The Nox emission levels for 25MW installation equal to 25 ppm at rated power and for 16MW installation they are 35 ppm. CO emissions amount to 30 ppm.
The steam generated in the waste heat recovery boiler is used for generating additional power and for Nox/CO suppression down to 25/30 ppm.
In the contact condenser, which is installed at the top of the waste heat recovery boiler water condensation and recovery out of the steam and gas mixture occur. The “Aquarius” type installations are capable of generating additional fresh water as a result of chemical reaction by fuel burning in the gas turbine when the cooling water in the installation inlet is lower than 30 centigrade.
An experimental 25 MW “Aquarius” installation has been successfully operates since 1995 and has accumulated over 10000 working hours at the “Zorya-Mashproekt” test facility.
Gas pumping unit GPU-16K at Stavischy compressor stationUGT10000 (DU70L) gas turbine with STIG
Ecological STIG
EnergeticalSTIG
“AQUARIUS”
Installation Diagram
“AQUARIUS”
Installation Diagram
1 - gas turbine2 - waste heat recovery boiler3 - contact condenser4 - condensate collector5 - condensate cleaning unit6 - feed water tank 7 - water cooler8 - pump9 - gas compressor
Air
Fuel
Ecological STIG
EnergeticalSTIG
Exhaust gas
Condansate
Cooling water
Steam-Gas Mix
Feed water
Sophisticated Cycle Installations
For Gas Pumping
Sophisticated Cycle Installations
For Gas Pumping
In November 1996 Open JSC “GASTURBOSERVICE” - Interregional Center on overhaul and maintenance of Zorya-Mashproekt gas turbine engines being used in gas pumping units was created. Its founders are: “Surgutgasprom” Ltd., Open JSC “Turbomotorworks” and GTR PC “Zorya-Mashproekt”.
Available up-to-date technology, highly precise equipment and skilled personnel provide qualitative repair and maintenance of products, being operated in Russia. Moreover, time of repair and transportation charges are being reduced, customs expenses are being excluded.
Among the Customers of Open JSC “Gasturboservice”are: Yamburggasdobycha, Tumentransgas, Severgasprom, Permtransgas, Uraltransgas, Bashtransgas, Samaratransgas, Tattransgas, etc.
Open JSC “Gasturboservice” performs the repair and maintenance of DR59L, DJ59L, DC59 gas turbine engines for gas pumping units and autonomous power plants.In future Open JSC “Gasturboservice” plans to carry out the repair and maintenance of “Zorya-Mashproekt” third and fourth generation gas turbine engines.
Interregional Center “GASTURBOSERVICE” on the repair of gas pumping units
Interregional Center “GASTURBOSERVICE” on the repair of gas pumping units
Center address:1, Khutoryanskiy Square, Tyumen-625014, RussiaTel/Fax: (3452) 21-34-74, 21-60-46, 21-09-37(095) 719-60-99, e-mail: [email protected]
New and up-dating gas pumping unitswith "Zorya”-“Mashproekt" gas turbinesNew and up-dating gas pumping unitswith "Zorya”-“Mashproekt" gas turbines
Engine Type Model Speed, rpmPower, MW Units Type
Efficiency, %(at station)
Initial New
Coberra-182
Coberra-182
DE76
DT71
DN70L
DI70P
DI70L
DU70L
DG90L2
DG90P1
DG90P1
DJ59L2
DN80L
DI80P
DU80L
GPA-3S "Ural'
GPA-C-6,3GT-6-750-6GT-6-750GTN-6
GTK-10-2GTK-10-4
GPU-10GPU-10-1
GTK-10I
GT-750-6
GPU-16K"Vodoley"
GTK-10-2GTK-10-4GPA-C-16SGPU-16SGPA-C-16S "Ural"GPA-16 "Volga"GPA-16 "Neva"GPU-16A
GPA STD 12,5
GPA-16
GTK-10-4
GPA25/16
GPA25/16
GTK25I
GPA-C-25S
GPA-25S "Ural"
REFERENCE LISTREFERENCE LIST
DR59 for GPU-10, GPU-10-01 DR59 for GPU-10, GPU-10-01
LocationBeginning ofoperation
Number of gas turbines
Bashtransgas. Total number 48 GPU, total power 480 MWCS Urgala, BashkortostanCS Arkaulovo, BashkortostanCS Polyanzkaya, BashkortostanCS Sharan, Bashkortostan
198019801982-831982-83
88
1616
RUSSIA. Total number 284 GPU, total power 2840 MWRUSSIA. Total number 284 GPU, total power 2840 MW
Volgotransgas. Total number 6 GPU, total power 60 MW
CS Yavasskaya, Mordovia 61995
Kavkaztransgas. Total number 21 GPU, total power 210 MWCS Artezianskaya, KalmykiyaCS Zenzelinskaya, Astrakhan regionCS Zamyanskaya, Astrakhan region
777
Lentransgas. Total number 9 GPU, total power 90 MW OPCS Torzhok, Torzhok townCS Pikalevo, Leningrad regionCS Volhovskaya, Leningrad region
333
198819911995
197819941995
Permtransgas. Total number 8 GPU, total power 80 MW
CS Gremyachinskaya, Perm region1990 8
Samaratransgas. Total number 24 GPU, total power 240 MW
CS Sokovka, Orenburg region 24
19811981198119811995
CS Nyuksenitsa, Vologda regionCS Privodino, Arkhangelsk region CS Urdoma, Arkhangelsk region CS Yubileinaya, Vologda regionCS Sheksna, Arkhangelsk region
88884
Severgasprom. Total number 36 GPU, total power 360 MW
Surgutgasprom. Total number 4 GPU, total power 40 MW
CS Karasulinsraya, Tyumen region
1990
1996 4
1997 5
Tomsktransgas. Total number 5 GPU, total power 50 MW
CS Kozhurlinskaya Novosibirsk region
1982-831982-831984-861985198519901992-20021993
Tyumentransgas. Total number 91 GPU, total power 910 MW
CS Peregrebnoe, Tyumen regionCS Lyalinskaya, Ekaterinburg regionCS Bobrovskaya, Tyumen regionCS Purovskaya, Tyumen regionCS Sosnovskaya, Tyumen regionCS N. Komsomolskaya, Tyumen regionCS Tayozhnaya, Tyumen regionCS N. Ivdelskaya, Ekaterinburg region
1616141214 6 6 7
1981
Uraltransgas. Total number 8 GPU, total power 80 MW
CS Dolmatovskaya, Kurgans region 8
Сhechensgas. Total number 3 GPU, total power 30 MW
CS Chervlennaya, Chechnya1990 8
1981
UKRAINE. Total number 44 GPU, total power 440 MWUKRAINE. Total number 44 GPU, total power 440 MW
Donbastransgas. Total number 8 GPU, total power 80 MW
CS Novopskov, Lugansk region 8
7
7
7
Kievtransgas. Total number 21 GPU, total power 210 MW
CS Romnenskaya, Sumy region
CS Zenkovskaya, Sumy region
CS Reshetilovskaya, Poltava region
1987-98
1987
1987
1515
LocationBeginning ofoperation
Number of gas turbines
KAZAKHSTAN. Total number 22 GPU, total power 220 MW
CS Gusyatinskaya, Ternopol region
CS Akkolskaya, Kaspi areaCS Redutskaya, Kaspi areaCS Taimanskaya, Kaspi area
Cherkassytransgas. Total number 7 GPU, total power 70 MW Cherkassytransgas. Total number 7 GPU, total power 70 MW
KAZAKHSTAN. Total number 22 GPU, total power 220 MW
UKRAINE. Total number 8 GPU, total power 128 MWUKRAINE. Total number 8 GPU, total power 128 MW
Prikarpattransgas. Total number 8 GPU, total power 80 MW CS Golyatinskaya, Zakarpatie regionPrikarpattransgas. Total number 8 GPU, total power 80 MW
8
7
787
1991
1996
199819981991
UGT16000 (DJ59) UGT16000 (DJ59)
LocationBeginning ofoperation
Number of gas turbines
RUSSIA. Total number 133 GPU, total power 2128 MWRUSSIA. Total number 133 GPU, total power 2128 MW
Volgotransgas, 22 GPU, total power 352 MW
CS Vyatskaya, Kirov region
CS Morkinskaya, Maryi El Republic
CS Pilnenskaya, Gorky region
Volgotransgas, 22 GPU, total power 352 MW
8 (3 modernization GPA-25/76)
8 (3 modernization GPA-25/76)
6 (GPU-16)
7 (3 modernization GPA-25/76)
5 (GPU-16)
8 (GPU-16)
10 (GPU-16)
5 (modernization GTK-10-4)
5 (GPU-16)
5 (GPU-16)
3 (modernization GTK-10-4)
9 (6 modernization GTK-10-4, 3 modernization GPA-25/76)
10 (GPU-16)
5 (GPU-16)
5 (GPU-16)
5 (GPU-16)
5 (GPU-16)
5 (GPU-16)
5 (GPU-16)
4 (GPU-16)
4 (GPU-16)
3 (GPU-16)
4 (GPU-16)
5 (GPU-16)
Permtransgas, 48 GPU, total power 768 MW
CS Dobryanskaya, Perm region
CS Ocherskaya, Perm region
CS N. Kungurskaya, Perm region
CS Almaznaya, Perm region
CS Agryzskaya, Perm region
CS Vavolzhskaya, Perm region
CS Igrinskaya, Perm region
CS Ordinskaya, Perm region
Permtransgas, 48 GPU, total power 768 MW
Tattransgas, 9 GPU, total power 144 MW
CS Shemordan, Tatarstan
Tattransgas, 9 GPU, total power 144 MW
Tumentransgas, 10 GPU, total power 160 MW
CS N. Komsomolskaya, Tumen region
Tumentransgas, 10 GPU, total power 160 MW
Yamburggasdobycha, 30 GPU, total power 480 MW
DCS-1, Yamburg
DCS-6, Yamburg
DCS-2, Yamburg
DCS-5, Yamburg
DCS-3, Yamburg
DCS-7, Yamburg
Yamburggasdobycha, 30 GPU, total power 480 MW
Kievtransgas, 4 GPU, total power 64 MW
CS Grebenkovskaya, Poltava region
Kievtransgas, 4 GPU, total power 64 MW
Cherkassytransgas, 4 GPU, total power 64 MW
CS Stavishchenskaya, Kiev region
Cherkassytransgas, 4 GPU, total power 64 MW
IRAN. Total number 12 GPU, total power 192 MWIRAN. Total number 12 GPU, total power 192 MW
CS X-1, near Farrashband town
CS X-2, near Nur Abad city
CS X-4, near Zarin Shahr city
1995
1995
1998
1991-1994
1991
1992-1993
1993-1994
1994
1994
1996
1997--2000
1995-1997
1990-2002
1995
1995
1997
1997
1998
2000
1996
1997
1995
1996-2000
1998-2000
DR59 (prolongation)DR59 (prolongation)
UGT6000 (DT71)UGT6000 (DT71)
UGT3000 (DЕ76)UGT3000 (DЕ76)
Location
Beginning ofoperation
Number of gas turbines
LocationBeginning ofoperation
Number of gas turbines
CZECH, 1 GPU, power 3 MW CZECH, 1 GPU, power 3 MW
1995 CS Shtremberg 1 (3RS56/3RD56)
RUSSIA. Total number 3 GPU, total power 18,9 MW
Mostransgas, Total number 3 GPU, total power 18,9 MWCS Gavrilov Yam, Yaroslavl regionCS Oktyabrskaya, Stavropol territoryCS Tchaplyginskaya, Lipetsk region
RUSSIA. Total number 3 GPU, total power 18,9 MW
Mostransgas, 1 (modernisation GPA-C-6,3S)1 (modernisation GPA-C-6,3S)1 (modernisation GPA-C-6,3S)
199519951996
UKRAINE. Total namber 16 GPU, total power 100,8 MW
CS Diranka, Poltava regionKievtransgas, 7GPU, total power 44,1 MW
UKRAINE. Total namber 16 GPU, total power 100,8 MW
Kievtransgas, 7GPU, total power 44,1 MW7 (GPA-C-6,3S)1995
2001Prikarpattransgas 7 GPU, total power 18,9 MW
Kharkovtransgas, 2 GPU, total power 12,6 MW
CS Yzhgorodskaya, Zakarpatie region
CS Kupyanskaya, Khharkov region
Prikarpattransgas 7 GPU, total power 18,9 MW
Kharkovtransgas, 2 GPU, total power 12,6 MW
,
1993
7 (GPA-C-6,3S)
2 (modernization GPA-C-6,3S)
Number of gas turbinesLocation
Beginning ofoperation
UKRAINE. Total namber 2 GPU, total power 26 MW
CherkassyCS Stavishchenskaya, Kiev region
CS Kirovogradskaya
transgas, 1 GPU, power 16 MW
Cherkassytransgas 1 GPU, power 10 MW
UKRAINE. Total namber 2 GPU, total power 26 MW
transgas, 1 GPU, power 16 MW
Cherkassytransgas 1 GPU, power 10 MW
1 DU70 (GPU-16K "Vodoley"
1 DN (modernization GTK-10-4)
2002
2002
UGT10000 (DN70, DU70)UGT10000 (DN70, DU70)
CS Stavishchenskaya, Kiev region
UGT25000 (DN80) UGT25000 (DN80)
Russia. Total number 15 GPU, total power 375 MW
UKRAINE. Total number 8 GPU, total power 200 MW
2002 CS Agryzskaya, Perm region 3 (modernization GTK-25/76)
2002 CS Ordinskaya, Perm region 3 (modernization GTK-25/76)
2002 CS Tayozhnaya-4, Tyumen region 3 (modernization GTK-25/76)
2002 CS Tayozhnaya-5, Tyumen region 3 (modernization GTK-25/76)
2002 CS N.Komsomolskaya,Tyumen region 3 (modernization GTK-25/76)
1998 CS Romnenskaya, Sumy region 3 (modernization GTK-25/76)
1998 CS Grebenkovskaya, Poltava region 2 (modernization GTK-25/76)
1995 CS Sofievskaya, Cherkassy region 1 (modernization GTK-25/76)
1998 CS Barskaya, Vinnitsa region 2 (modernization GTK-25/76)
Permtransgas, 6 GPU, total power 150 MW
Tyumentransgas, 9 GPU, total power 225 MW
Kievtransgas, 4 GPU, total power 100 MW
Cherkassytransgas, 4 GPU, total power 100 MW
Russia. Total number 15 GPU, total power 375 MW
UKRAINE. Total number 8 GPU, total power 200 MW
Permtransgas, 6 GPU, total power 150 MW
Tyumentransgas, 9 GPU, total power 225 MW
Kievtransgas, 4 GPU, total power 100 MW
Cherkassytransgas, 4 GPU, total power 100 MW
Number of gas turbines
Number of gas turbines
Beginning of operationBeginning
of operation LocationLocation
Number of gas turbines
Number of gas turbines
Beginning of operationBeginning
of operation LocationLocation
RUSSIA. Total number 66 GPU total power 1056 MW
UKRAINE. Total number 6 GPU total power 96 MW
BELARUS. Total number 5 GPU total power 80 MW
1
Volgotransgas, 5 GPU total power 80 MW
Noyabrskgasdobycha, 10 GPU total power 160 MW
Surgutgasprom, 33 GPU total power 528 MW
Yamburggasdobycha, 18 GPU total power 288 MW
Prikarpattransgas, 4 GPU total power 64 MW
1997 CS Zavolzhskaya, Chuvashiya 5 (modernization GTK-10-4)
1998 CS Komsomolskaya, Tyumen region 6
2002 CS Gubkinskaya, Tyumen region 4
1991 CS Bogandinskaya, Tyumen region 5 (modernization GTK Coberra-182)
1995-2002 CS Turtasskaya, Tyumen region 5 (modernization GTK-10-4)
5 (modernization GTK Coberra-182)
1997 CS Vyngapurovskaya-3, Tyumen region 6
1996 CS Demyanskaya, Tyumen region 6 (modernization GTK-10-4)
2001 CS Vyngapurovskaya-1, Tyumen region 6 (modernization GTK-10-4)
2002 DKS-1, Yamburg 6
2002 DKS-3, Yamburg 6
2002 DKS-6, Yamburg 6
2001 CS Tarutinskaya, Odessa region 3
2001 CS Dolyna, Ivano-Frankovsk region 1
1999 Odessa Port Plant 2 "Coberra"
999 CS Nesvizh, Minsk region 5
RUSSIA. Total number 66 GPU total power 1056 MW
Volgotransgas, 5 GPU total power 80 MW
Noyabrskgasdobycha, 10 GPU total power 160 MW
Surgutgasprom, 33 GPU total power 528 MW
Yamburggasdobycha, 18 GPU total power 288 MW
Prikarpattransgas, 4 GPU total power 64 MW
UKRAINE. Total number 6 GPU total power 96 MW
BELARUS. Total number 5 GPU total power 80 MW
UGT 15000 (DG90)UGT 15000 (DG90)
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