Gas turbine basic data | Quick reference tables


Model


Gross output1 MW


Gross


Heat rate1 kJ/kWh


efficiency1 %


Shaft speed2


Pressure ratio


GE POWER, Schenectady, New York, USA www.gepower.com (continuation) 9F.051


9HA.011 9HA.021


GT26 HE upgrade


314 448 571


9333 8398 8166


38.6 42.9 44


3000 3000 3000


18.3 22.8 23.8


Turbine inlet


temp °C


Exhaust mass flow kg/s


NOx


Exhaust temp °C


emissions3 ppmv


Start up time4


min


Weight5 tonnes


– – –


713.4 847.8


1039.9


632 648 640


25 25 25


25 23 23


322 386 432


The first installation of GE’s upgrade offering for its fleet of GT26 gas turbines recently finished a proving run at Uniper’s Enfield CCGT power station in the UK. It achieved a full load CC efficiency improvement of 2 percentage points to nearly 60%, a 1 percentage point increase in part load efficiency, and an additional 25 MW in power rating


Notes: (1) Heavy duty models quoted with inlet loss, exhaust loss, and shaft driven auxiliary losses. NB All aeroderivaties available as 50Hz and 60 Hz versions, figures are given in that order. The graphic shows the 50 Hz figure. Dimensions: *No data avaialble for 60 Hz versions. **Data quoted is for 50Hz version, which is larger. ***No data for 50 Hz versions. †By GE Oil & Gas Business Uinit. Baker Hughes, <www.bakerhughes.com>, formerly part of GE as GE Oil & Gas, designs and supplies industrial gas turbines (including the NovaLT range, and LM6000, LM9000 and LM2500 GTs) for power generation and drive train applications in the 5.7 to 130 MW range.


KAWASAKI HEAVY INDUSTRIES, Toyko, Japan www.khi.co.jp M1A-13A M1A-13D M1A-17 MIA-17D MIT-13A MIT-13D M7A-01


1.49 1.49 1.7 1.7


M7A-01D M7A-02


M7A-02D


M7A-03/03D L20-A L30-A


2.93 2.93 5.53 5.47 5.8


6.74 7.8


18.42 30.12


14880 15030 13400 13400 15100 15240 12150 12190 11870 11900 10730 10530 8970


24.2 24


26.9 26.9 23.8 23.6 29.6 29.5 30.3 30.3 33.6 34.2 40.1


1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800 1500/1800


9.4 9.6


10.5 10.5 9.4 9.5


13.1 13.1 16 16


15.8 18.6 24.9


– – – – – – – – – – – – –


8.1 8


8.1 8.1


16.2 16


21.7 21.7 27 27


27.2 59.8 88.7


521 531 521 521 521 531 545 542 516 513 523 542 470


Notes: (All) The two shaft speeds shown are for 50 and 60 Hz operation respectively. Dimensions and weights are for fully enclosed generating packages.


MAN ENERGY SOLUTIONS SE, Oberhausen, Germany www.man-es.com THM 1304-10N THM 1304-12N MGT6000


10.08 12


12330 11790


29.2 30.5


9000 9000


MITSUBISHI POWER LTD, Yokohama, Japan www.mhps.com M501DA M701DA M501F M501G


114 144


M501GAC M501JAC M501J M701G M701F M701J


M701JAC H-25


 


M701JAC


185.4 267.5 283 435 330 334 385 478 574 41


105.8 116.5 448


10320 10350 9740 9211 9000 8182 8552 9110 8592 8511 8295 9949 9421 9400 8182


34.9 34.8 37


39.1 40 44


42.1 39.5 41.9 42.3 43.4 36.2 38.2 38.3 44


–


25 – 9 –


25 –


35 –


25 15 15 15


– – – – – – – – – – – – –


– – – – – – – – – – – – –


10 11


6.63-7.80 10840-11190 32.3-33.2 1500/1800 14-16


– – –


46.5 49.1


26.1-29.4


490 515


490-505


25 25 15


– – –


– – –


3600 3000 3600 3600 3600 3600 3600 3000 3000 3000 3000 7280 3600 3000 3000


14 14 16 20 20 25 23 21 21 23 25


17.9 18.4 18 25


– – – – – – – – – – – – – – –


354 453 468 612 618 764 620 755 748 896


1024 114 293 296 765


543 542 613 601 617 645 635 587 630 630 646 569 534 586 663


Notes: All ratings on natural gas fuel, with inlet and exhaust losses, LHV basis; except H series gas turbines where they are given without inlet and exhaust losses. Effective October 2021, Mitsubishi Power will be renamed Mitsubishi Heavy Industry.


Notes for table headings:


– – – – – – – – – – – – – – –


– – – – – – – – – – – – – – –


145 200 193 333 270 347 317 420 480 560 560 55


175 216 560


(1) Simple cycle at generator terminals, ISO conditions. Heat rate LHV, kJ/kWh unless otherwise stated. (2) Power shaft. (3) At 15% O2 dry, ppmv. (4) From cold (5) Thermal block


32 | July/August 2021 | www.modernpowersystems.com


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