General Electric LM2500: Difference between revisions
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{{short description|Industrial and marine gas turbine produced by GE |
{{short description|Industrial and marine gas turbine produced by GE Aerospace}} |
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{{Use dmy dates|date=September 2020}} |
{{Use dmy dates|date=September 2020}} |
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{|{{Infobox aircraft begin |
{|{{Infobox aircraft begin |
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==Design and development== |
==Design and development== |
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{{more sources|section|date=April 2024}} |
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[[Image:USS Bunker Hill (CG-52) LM2500 modules.jpg|thumb|A heavy lift lowers the main propulsion module into the hull of {{USS|Bunker Hill|CG-52}} during construction at [[Ingalls Shipbuilding]]. The module consists of two General Electric LM2500 gas turbine engines and a Westinghouse gear reduction unit.]] |
[[Image:USS Bunker Hill (CG-52) LM2500 modules.jpg|thumb|A heavy lift lowers the main propulsion module into the hull of {{USS|Bunker Hill|CG-52}} during construction at [[Ingalls Shipbuilding]]. The module consists of two General Electric LM2500 gas turbine engines and a Westinghouse gear reduction unit.]] |
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The LM2500 was first used on the US Navy {{Ship|GTS|Admiral W. M. Callaghan}} in 1969, after the original FT-4 gas turbines experienced many technical problems.<ref name=":0">{{Cite web|title=GTS Admiral W.M. Callaghan {{!}} MARAD|url=https://www.maritime.dot.gov/content/gts-admiral-wm-callaghan|access-date=2020-08-11|website=www.maritime.dot.gov}}</ref> Later, they were used in US Navy warships in the {{sclass |
The LM2500 was first used on the US Navy {{Ship|GTS|Admiral W. M. Callaghan}} in 1969, after the original FT-4 gas turbines experienced many technical problems.<ref name=":0">{{Cite web|title=GTS Admiral W.M. Callaghan {{!}} MARAD|url=https://www.maritime.dot.gov/content/gts-admiral-wm-callaghan|access-date=2020-08-11|website=www.maritime.dot.gov|archive-date=1 October 2020|archive-url=https://web.archive.org/web/20201001080544/https://maritime.dot.gov/content/gts-admiral-wm-callaghan|url-status=dead}}</ref> Later, they were used in US Navy warships in the {{sclass|Spruance|destroyer|4}} of destroyers and the related {{sclass|Kidd|destroyer|4}}, which were constructed from 1970. In this configuration it was rated to {{convert|21500|SHP|abbr=on}}. This configuration was subsequently used into the 1980s in the {{sclass|Oliver Hazard Perry|frigate}}s, and {{sclass|Ticonderoga|cruiser}}s. It was also used by one of People's Republic of China's [[Type 052 destroyer|Type 052 Luhu Class Missile Destroyer (Harbin 112)]] acquired before the embargo. |
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The LM2500 was uprated to {{convert|26500|SHP|abbr=on}} for the {{sclass |
The LM2500 was uprated to {{convert|26500|SHP|abbr=on}} for the {{sclass|Arleigh Burke|destroyer|1}}s, which were initiated in the 1980s and started to see service in the early 1990s, and the T-AOE-6 class of fast combat tanker. |
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In 2001 the LM2500 (20 MW) was installed in a sound-proof capsule in the South African Navy |
In 2001 the LM2500 (20 MW) was installed in a sound-proof capsule in the South African Navy {{sclass|Valour|frigate|4}} (Meko A-200 SAN) frigates as part of a CODAG propulsion system with two MTU 16V 1163 TB93 Propulsion Diesels. |
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The current generation was uprated in the late 1990s to over {{convert|30000|SHP|abbr=on}}. |
The current generation was uprated in the late 1990s to over {{convert|30000|SHP|abbr=on}}. |
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LM2500 installations place the engine inside a metal container for sound and heat isolation from the rest of the machinery spaces. This container is very near the size of a standard {{convert|40|ft|m|adj=on}} [[Containerization|intermodal shipping container]] |
LM2500 installations place the engine inside a metal container for sound and heat isolation from the rest of the machinery spaces. This container is very near the size of a standard {{convert|40|ft|m|adj=on}} [[Containerization|intermodal shipping container]] – but not the same, the engine size very slightly exceeds those dimensions. The air intake ducting may be designed and shaped appropriately for easy removal of the LM2500 from their ships. |
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The LM2500+ is an evolution of the LM2500, delivering up to {{convert|40200|shp|kW|abbr=on}} or 28.6 MW of electric energy when combined with an [[electrical generator]]. Two of such turbo-generators have been installed in the superstructure near the [[funnel (ship)|funnel]] of ''[[Queen Mary 2]]'', the world's largest transatlantic ocean liner, for additional electric energy |
The LM2500+ is an evolution of the LM2500, delivering up to {{convert|40200|shp|kW|abbr=on}} or 28.6 MW of electric energy when combined with an [[electrical generator]]. Two of such turbo-generators have been installed in the superstructure near the [[funnel (ship)|funnel]] of ''[[Queen Mary 2]]'', the world's largest transatlantic ocean liner, for additional electric energy for the liner to reach higher sea speeds..<!-- no, this is not CODAG --> [[Celebrity Cruises]] uses two LM2500+ engines in their {{sclass|Millennium|cruise ship|1}}s in a [[COGAS]] cycle (actually COGES, as the turbines generate electricity rather than driving the shafts directly). |
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The LM2500 is license-built in India by [[Hindustan Aeronautics Limited]];<ref>[https://www.gemarinesolutions.com/markets/military GE Marine Solutions Military page]{{Dead link|date=December 2022 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> in Italy by [[Avio Aero]];{{citation needed|date=May 2019}} and in Japan by [[IHI Corporation]].<ref>{{Cite web |title=GE to Provide IHI with LM2500 and LM500 Gas Turbines for Japan's New 24DDH Destroyer; IHI/GE Celebrate Milestone {{!}} GE Aviation |url=https://www.geaviation.com/press-release/marine-industrial-engines/ge-provide-ihi-lm2500-and-lm500-gas-turbines-japans-new |access-date=2022-07-29 |website=www.geaviation.com}}</ref> (Subsequent to the February 2024 reporting of an IHI company [[whistleblower]];<ref>{{cite news |title=Japan's IHI rigged data for over 4,000 engines at least since 2003 |url=https://english.kyodonews.net/news/2024/04/1b35909379dd-japans-ihi-rigged-data-for-over-4000-engines-at-least-since-2003.html |access-date=29 April 2024 |work=english.kyodonews.net |publisher=Kyodo News}}</ref> On April 24, 2024, IHI announced that investigation was underway by Japan's [[Ministry of Land, Infrastructure, Transport and Tourism]] of its subsidiary, IHI Power Systems Co., which had falsified its engine data since 2003, impacting over 4,000 engines globally.<ref>{{cite news |title=IHI Subsidiary Falsifies Data on Engine Performances of Ships and Trains |url=https://japannews.yomiuri.co.jp/business/companies/20240424-182175/ |access-date=29 April 2024 |work=The Japan News}}</ref>) |
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The LM2500 is license-built in Japan by [[IHI Corporation]],{{citation needed|date=May 2019}} in India by [[Hindustan Aeronautics Limited]],<ref>[https://www.gemarinesolutions.com/markets/military GE Marine Solutions Military page]</ref> and in Italy by [[Avio Aero]].{{citation needed|date=May 2019}} |
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The LM2500/LM2500+ can often be found as turbine part of [[combined diesel and gas|CODAG]], [[combined diesel or gas|CODOG]], [[Combined diesel-electric and gas|CODLAG]] propulsion systems or in pairs as powerplants for [[COGAG]] systems. |
The LM2500/LM2500+ can often be found as turbine part of [[combined diesel and gas|CODAG]], [[combined diesel or gas|CODOG]], [[Combined diesel-electric and gas|CODLAG]] propulsion systems or in pairs as powerplants for [[COGAG]] systems.{{cn|date=April 2024}} |
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==Applications== |
==Applications== |
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''[[Aircraft carrier]]:'' |
''[[Aircraft carrier]]:'' |
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* {{Ship|Italian aircraft carrier|Cavour|C 550}} ([[Italian Navy]]) |
* {{Ship|Italian aircraft carrier|Cavour|C 550}} ([[Italian Navy]]) |
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* {{Ship|Italian aircraft carrier|Giuseppe Garibaldi|C 551}} ([[Italian Navy]]) |
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* {{Ship|HTMS|Chakri Naruebet}} ([[Royal Thai Navy]]) |
* {{Ship|HTMS|Chakri Naruebet}} ([[Royal Thai Navy]]) |
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* {{Ship|Spanish aircraft carrier|Príncipe de Asturias}} ([[Spanish Navy]]) |
* {{Ship|Spanish aircraft carrier|Príncipe de Asturias}} ([[Spanish Navy]]) |
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* {{INS|Vikrant|2013|6}} ([[Indian Navy]]) |
* {{INS|Vikrant|2013|6}} ([[Indian Navy]]) |
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''[[Oil and Gas Industry]]:'' |
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* {{Ship|ONGC|BHS Platform}} ([[India]]) |
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''[[Amphibious assault ship]]:'' |
''[[Amphibious assault ship]]:'' |
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* {{sclass |
* {{sclass|America|amphibious assault ship|2}} ([[United States Navy]]) |
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* {{sclass |
* {{sclass|Canberra|landing helicopter dock|2}} ([[Royal Australian Navy]]) |
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* {{Ship|Spanish ship|Juan Carlos I|L61}} (Spanish Navy) |
* {{Ship|Spanish ship|Juan Carlos I|L61}} (Spanish Navy) |
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* {{USS|Makin Island|LHD-8}} ( |
* {{USS|Makin Island|LHD-8}} (United States Navy) |
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''[[Cruiser]]:'' |
''[[Cruiser]]:'' |
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* {{sclass |
* {{sclass|Ticonderoga|cruiser|2}} (United States Navy) |
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''[[Destroyer]]:'' |
''[[Destroyer]]:'' |
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* {{sclass |
* {{sclass|Arleigh Burke|destroyer|2}} (United States Navy) |
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* {{sclass |
* {{sclass|Hobart|destroyer|2}} (Royal Australian Navy) |
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* {{sclass |
* {{sclass|Atago|destroyer|2}} ([[Japan Maritime Self-Defense Force]]) |
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* {{sclass |
* {{sclass|Durand de la Penne|destroyer|2}} (Italian Navy) |
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* {{sclass |
* {{sclass|Gwanggaeto the Great|destroyer|2}} ([[Republic of Korea Navy]]) |
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* {{sclass |
* {{sclass|Kidd|destroyer|2}} ([[Republic of China Navy]]) |
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* {{sclass |
* {{sclass|Sejong the Great|destroyer|2}} (Republic of Korea Navy) |
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* {{sclass |
* {{sclass|Kongō|destroyer|2}} (Japan Maritime Self-Defense Force) |
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* {{sclass |
* {{sclass|Spruance|destroyer|2}} (United States Navy) |
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* [[Type 052 destroyer]] ([[People's Liberation Army Navy]]) |
* [[Type 052 destroyer]] ([[People's Liberation Army Navy]]) |
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* [[Project 18]] (Indian Navy) |
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''[[Frigate]]:'' |
''[[Frigate]]:'' |
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* {{sclass |
* {{sclass|Adelaide|frigate|2}} (Royal Australian Navy) |
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* {{sclass |
* {{sclass|Álvaro de Bazán|frigate|2}} (Spanish Navy) |
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* {{sclass |
* {{sclass|Anzac|frigate|2}} (Royal Australian Navy, [[Royal New Zealand Navy]]) |
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* {{sclass |
* {{sclass|Baden-Württemberg|frigate|2}} ([[German Navy]]) |
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* {{sclass |
* {{sclass|Barbaros|frigate|2}} ([[Turkish Navy]]) |
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* {{sclass |
* {{sclass|Bhumibol Adulyadej|frigate|2}} ([[Royal Thai Navy]]) |
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* {{sclass |
* {{sclass|Brandenburg|frigate|2}} (German Navy) |
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* {{sclass |
* {{sclass|Bremen|frigate|2}} (German Navy) |
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* {{sclass |
* {{sclass|Cheng Kung|frigate|2}} (Republic of China Navy) |
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* {{sclass|Constellation|frigate|2}} (United States Navy) |
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* [[FREMM multipurpose frigate]] ([[French Navy]], Italian Navy, [[Royal Moroccan Navy]]) |
* [[FREMM multipurpose frigate]] ([[French Navy]], Italian Navy, [[Royal Moroccan Navy]]) |
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* {{sclass |
* {{sclass|Fridtjof Nansen|frigate|2}} ([[Royal Norwegian Navy]]) |
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* {{sclass |
* {{sclass|Halifax|frigate|2}} ([[Royal Canadian Navy]]) |
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* {{sclass |
* {{sclass|Horizon|frigate|2}} (French Navy, Italian Navy) |
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* {{sclass |
* {{sclass|Hydra|frigate|2}} ([[Hellenic Navy]]) |
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* {{sclass |
* {{sclass|Jinnah|frigate|2}} ([[Pakistan Navy]]) |
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* {{sclass |
* {{sclass|Naresuan|frigate|2}} ([[Royal Thai Navy]]) |
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* {{sclass |
* {{sclass|Nilgiri|frigate|2||2019}} (Indian Navy) |
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* {{sclass |
* {{sclass|Oliver Hazard Perry|frigate|2}} (United States Navy) |
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* {{sclass |
* {{sclass|Sachsen|frigate|2}} (German Navy) |
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* {{sclass |
* {{sclass|Santa María|frigate|2}} (Spanish Navy) |
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* {{sclass |
* {{sclass|Shivalik|frigate|2}} (Indian Navy) |
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* {{sclass |
* {{sclass|Valour|frigate|2}} ([[South African Navy]]) |
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* {{sclass |
* {{sclass|Vasco da Gama|frigate|2}} ([[Portuguese Navy]]) |
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* {{sclass |
* {{sclass|Ulsan|frigate|2}} (Republic of Korea Navy) |
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* {{sclass|Istanbul|frigate|2}} (Turkish Navy)<ref>{{cite web | url=https://www.defenceturkey.com/en/content/ge-marine-has-long-been-a-trusted-supplier-to-the-turkish-naval-forces-4777 | title='GE Marine has Long Been a Trusted Supplier to the Turkish Naval Forces!' }}</ref> |
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''[[Fast Combat Support Ship]]:'' |
''[[Fast Combat Support Ship]]:'' |
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* {{sclass |
* {{sclass|Supply|fast combat support ship|2}} (United States Navy) |
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''[[Maritime Prepositioning Force]]:'' |
''[[Maritime Prepositioning Force]]:'' |
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* {{sclass |
* {{sclass|Watson|vehicle cargo ship|2}} (United States Navy) |
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''[[Littoral combat ship]]:'' |
''[[Littoral combat ship]]:'' |
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* {{sclass |
* {{sclass|Independence|littoral combat ship|2}} (United States Navy) |
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''[[Corvette]]:'' |
''[[Corvette]]:'' |
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* {{sclass |
* {{sclass|Pohjanmaa|corvette|2}} ([[Finnish Navy]]) |
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* {{sclass |
* {{sclass|Niels Juel|corvette|2}} ([[Royal Danish Navy]]) |
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* {{sclass |
* {{sclass|Sa'ar 5|corvette|2}} ([[Israeli Navy]]) |
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| ⚫ | |||
* {{Ship|BRP|Conrado Yap (PS-39)}} ([[Philippine Navy]]) |
* {{Ship|BRP|Conrado Yap (PS-39)}} ([[Philippine Navy]]) |
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* {{sclass |
* {{sclass|Inhauma|corvette|2}} ([[Brazilian Navy]]) |
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| ⚫ | |||
* [[Next Generation Missile Vessels]] ([[Indian Navy]]) |
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''[[Maritime Security Cutter, Large]]:'' |
''[[Maritime Security Cutter, Large]]:'' |
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* {{sclass2|Legend|cutter|2}} ([[United States Coast Guard]]) |
* {{sclass2|Legend|cutter|2}} ([[United States Coast Guard]]) |
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''[[Fast attack craft|Fast Attack]] [[Patrol boat]] |
''[[Fast attack craft|Fast Attack]] [[Patrol boat]] |
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* {{sclass |
* {{sclass|Pegasus|hydrofoil|2}} (United States Navy) |
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* {{sclass|Mandau|fast attack craft|2}} ([[Indonesian Navy]]) |
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''[[Passenger Ship]]:'' |
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* ''[[Queen Mary 2]]'' ocean liner ([[Cunard Line]]) |
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* {{sclass|Vista|cruise ship|2||2002}} ([[Holland America Line]]) |
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* {{sclass|Coral|cruise ship|2}} ([[Princess Cruises]]) |
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* {{sclass|Gem|cruise ship|2}} ([[Princess Cruises]]) |
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* {{sclass|Millennium|cruise ship|2}} ([[Celebrity Cruises]]) |
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* {{sclass|Radiance|cruise ship|2}} ([[Royal Caribbean International]]) |
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== Variants == |
== Variants == |
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* The improved, 3rd generation, LM2500+ version of the turbine delivers {{cvt|40,500|shp|kW}} with a thermal efficiency of 39 percent at ISO conditions. When coupled with an electric generator, it delivers 29 MW of electricity at 60 [[Hertz|Hz]] with a thermal efficiency of 38 percent at ISO conditions.<ref>{{cite web|url=http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plus.pdf|title=LM2500+ Marine Gas Turbine Data Sheet|publisher=GE Aviation|url-status=bot: unknown|archive-url=https://web.archive.org/web/20120729132424/http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plus.pdf|archive-date=29 July 2012}}</ref><ref>{{cite web |author1=Ramsdal, Roald|url=http://www.tu.no/petroleum/2014/10/27/pa-disse-plattformene-fyrer-de-minst-for-makene |title=På disse plattformene fyrer de minst for måkene | archive-url=https://web.archive.org/web/20141028230738/http://www.tu.no/petroleum/2014/10/27/pa-disse-plattformene-fyrer-de-minst-for-makene |archive-date=28 October 2014 |website=[[Teknisk Ukeblad]]|date=27 October 2014|url-status=live}}</ref> |
* The improved, 3rd generation, LM2500+ version of the turbine delivers {{cvt|40,500|shp|kW}} with a thermal efficiency of 39 percent at ISO conditions. When coupled with an electric generator, it delivers 29 MW of electricity at 60 [[Hertz|Hz]] with a thermal efficiency of 38 percent at ISO conditions.<ref>{{cite web|url=http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plus.pdf|title=LM2500+ Marine Gas Turbine Data Sheet|publisher=GE Aviation|url-status=bot: unknown|archive-url=https://web.archive.org/web/20120729132424/http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plus.pdf|archive-date=29 July 2012}}</ref><ref>{{cite web |author1=Ramsdal, Roald|url=http://www.tu.no/petroleum/2014/10/27/pa-disse-plattformene-fyrer-de-minst-for-makene |title=På disse plattformene fyrer de minst for måkene | archive-url=https://web.archive.org/web/20141028230738/http://www.tu.no/petroleum/2014/10/27/pa-disse-plattformene-fyrer-de-minst-for-makene |archive-date=28 October 2014 |website=[[Teknisk Ukeblad]]|date=27 October 2014|url-status=live}}</ref> |
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* The latest, 4th generation, LM2500+G4 version was introduced in November 2005 and delivers 47,370 shp (35,320 kW) with a thermal efficiency of 39.3 percent at ISO conditions.<ref>{{cite web|url=http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plusg4.pdf|title=LM2500+G4 Marine Gas Turbine Data Sheet|publisher=GE Aviation|access-date=27 July 2012|archive-url=https://web.archive.org/web/20140314114704/http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plusg4.pdf|archive-date=14 March 2014|url-status=dead}}</ref> |
* The latest, 4th generation, LM2500+G4 version was introduced in November 2005 and delivers 47,370 shp (35,320 kW) with a thermal efficiency of 39.3 percent at ISO conditions.<ref>{{cite web|url=http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plusg4.pdf|title=LM2500+G4 Marine Gas Turbine Data Sheet|publisher=GE Aviation|access-date=27 July 2012|archive-url=https://web.archive.org/web/20140314114704/http://www.geaviation.com/engines/marine/pdfs/datasheet_lm2500plusg4.pdf|archive-date=14 March 2014|url-status=dead}}</ref> |
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=== |
=== Derivatives === |
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* The GE TM2500 is derived from the LM2500, and mounted on a trailer that makes it possible to move it to wherever |
* The GE TM2500 is derived from the LM2500, and mounted on a trailer that makes it possible to move it to wherever 30 MW of temporary electricity generation is required.<ref>{{cite web |url=https://www.vbr-turbinepartners.com/gas-turbines/ge-tm2500/ |title=GE TM2500 Gas Turbine |publisher=VBR Turbine Partners |access-date=30 August 2019}}</ref> It can be installed and commissioned in 11 days.<ref>{{cite web |url=https://www.ge.com/power/gas/gas-turbines/tm2500 |title=Mobile Aeroderivative Gas Turbine TM2500 |publisher=[[general Electric]] |access-date=30 August 2019}}</ref> |
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==Specification== |
==Specification== |
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The basic LM2500 has a single shaft gas generator derived from the CF6, comprising a 16 stage compressor driven by a two stage air-cooled HP turbine. The combustion chamber is annular. Shaft power is generated by a 6-stage power turbine mounted in the gas generator exhaust stream Additional power is obtained from the LM2500+ by the addition of a zero stage to the compressor, making 17 stages in all. |
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Specifications for three models of LM2500 series gas turbine engines: |
Specifications for three models of LM2500 series gas turbine engines: |
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{| class="wikitable" style="width: 100%; margin-right: 0;" |
{| class="wikitable" style="width: 100%; margin-right: 0;" |
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|Exhaust gas temperature |
|Exhaust gas temperature |
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|1, |
|1,051°F (566°C) |
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| |
|965°F (518°C) |
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|1, |
|1,020°F (549°C) |
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|- |
|- |
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|Turbine speed (rpm) |
|Turbine speed (rpm) |
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* [http://www.navy.mil.za/equipment/valour.htm SA Navy Valour class frigate page] |
* [http://www.navy.mil.za/equipment/valour.htm SA Navy Valour class frigate page] |
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* [https://powergen.gepower.com/products/aeroderivative-gas-turbines/lm2500-gas-turbine-family.html Power Generation plants] |
* [https://powergen.gepower.com/products/aeroderivative-gas-turbines/lm2500-gas-turbine-family.html Power Generation plants] |
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* [https://powergen.gepower.com/content/dam/gepower-pgdp/global/en_US/documents/product/gas%20turbines/Fact%20Sheet/LM2500-50Hz-fact-sheet-2016.pdf Simple and combined cycle 50 |
* [https://powergen.gepower.com/content/dam/gepower-pgdp/global/en_US/documents/product/gas%20turbines/Fact%20Sheet/LM2500-50Hz-fact-sheet-2016.pdf Simple and combined cycle 50 Hz] |
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* [https://powergen.gepower.com/content/dam/gepower-pgdp/global/en_US/documents/product/gas%20turbines/Fact%20Sheet/LM2500-60Hz-fact-sheet-2016.pdf Simple and combined cycle 60 |
* [https://powergen.gepower.com/content/dam/gepower-pgdp/global/en_US/documents/product/gas%20turbines/Fact%20Sheet/LM2500-60Hz-fact-sheet-2016.pdf Simple and combined cycle 60 Hz] |
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{{ |
{{General Electric aeroengines}} |
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{{Aero-derivative engines}} |
{{Aero-derivative engines}} |
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Latest revision as of 08:21, 27 June 2024
| LM2500 | |
|---|---|
_Gas_Turbine.jpg)
| |
| An LM2500 on USS Ford (FFG-54) | |
| Type | Aeroderivative gas turbine |
| National origin | United States |
| Manufacturer | General Electric |
| First run | 1960s |
| Developed from | General Electric CF6 |
The General Electric LM2500 is an industrial and marine gas turbine produced by GE Aviation. The LM2500 is a derivative of the General Electric CF6 aircraft engine.
As of 2004, the U.S. Navy and at least 29 other navies had used a total of more than one thousand LM2500/LM2500+ gas turbines to power warships.[1] Other uses include hydrofoils, hovercraft and fast ferries.
In 2012, GE developed an FPSO version to serve the oil and gas industry's demand for a lighter, more compact version to generate electricity and drive compressors to send natural gas through pipelines.[2]
Design and development
[edit] | This section needs additional citations for verification. (April 2024) |
_LM2500_modules.jpg)
The LM2500 was first used on the US Navy GTS Admiral W. M. Callaghan in 1969, after the original FT-4 gas turbines experienced many technical problems.[3] Later, they were used in US Navy warships in the Spruance class of destroyers and the related Kidd class, which were constructed from 1970. In this configuration it was rated to 21,500 shp (16,000 kW). This configuration was subsequently used into the 1980s in the Oliver Hazard Perry-class frigates, and Ticonderoga-class cruisers. It was also used by one of People's Republic of China's Type 052 Luhu Class Missile Destroyer (Harbin 112) acquired before the embargo.
The LM2500 was uprated to 26,500 shp (19,800 kW) for the Arleigh Burke-class destroyers, which were initiated in the 1980s and started to see service in the early 1990s, and the T-AOE-6 class of fast combat tanker.
In 2001 the LM2500 (20 MW) was installed in a sound-proof capsule in the South African Navy Valour class (Meko A-200 SAN) frigates as part of a CODAG propulsion system with two MTU 16V 1163 TB93 Propulsion Diesels.
The current generation was uprated in the late 1990s to over 30,000 shp (22,000 kW).
LM2500 installations place the engine inside a metal container for sound and heat isolation from the rest of the machinery spaces. This container is very near the size of a standard 40-foot (12 m) intermodal shipping container – but not the same, the engine size very slightly exceeds those dimensions. The air intake ducting may be designed and shaped appropriately for easy removal of the LM2500 from their ships.
The LM2500+ is an evolution of the LM2500, delivering up to 40,200 shp (30,000 kW) or 28.6 MW of electric energy when combined with an electrical generator. Two of such turbo-generators have been installed in the superstructure near the funnel of Queen Mary 2, the world's largest transatlantic ocean liner, for additional electric energy for the liner to reach higher sea speeds.. Celebrity Cruises uses two LM2500+ engines in their Millennium-class cruise ships in a COGAS cycle (actually COGES, as the turbines generate electricity rather than driving the shafts directly).
The LM2500 is license-built in India by Hindustan Aeronautics Limited;[4] in Italy by Avio Aero;[citation needed] and in Japan by IHI Corporation.[5] (Subsequent to the February 2024 reporting of an IHI company whistleblower;[6] On April 24, 2024, IHI announced that investigation was underway by Japan's Ministry of Land, Infrastructure, Transport and Tourism of its subsidiary, IHI Power Systems Co., which had falsified its engine data since 2003, impacting over 4,000 engines globally.[7])
The LM2500/LM2500+ can often be found as turbine part of CODAG, CODOG, CODLAG propulsion systems or in pairs as powerplants for COGAG systems.[citation needed]
Applications
[edit]- Italian aircraft carrier Cavour (C 550) (Italian Navy)
- Italian aircraft carrier Giuseppe Garibaldi (C 551) (Italian Navy)
- HTMS Chakri Naruebet (Royal Thai Navy)
- Spanish aircraft carrier Príncipe de Asturias (Spanish Navy)
- INS Vikrant (Indian Navy)
- America-class amphibious assault ship (United States Navy)
- Canberra-class landing helicopter dock (Royal Australian Navy)
- Spanish ship Juan Carlos I (L61) (Spanish Navy)
- USS Makin Island (LHD-8) (United States Navy)
- Ticonderoga-class cruiser (United States Navy)
- Arleigh Burke-class destroyer (United States Navy)
- Hobart-class destroyer (Royal Australian Navy)
- Atago-class destroyer (Japan Maritime Self-Defense Force)
- Durand de la Penne-class destroyer (Italian Navy)
- Gwanggaeto the Great-class destroyer (Republic of Korea Navy)
- Kidd-class destroyer (Republic of China Navy)
- Sejong the Great-class destroyer (Republic of Korea Navy)
- Kongō-class destroyer (Japan Maritime Self-Defense Force)
- Spruance-class destroyer (United States Navy)
- Type 052 destroyer (People's Liberation Army Navy)
- Project 18 (Indian Navy)
- Adelaide-class frigate (Royal Australian Navy)
- Álvaro de Bazán-class frigate (Spanish Navy)
- Anzac-class frigate (Royal Australian Navy, Royal New Zealand Navy)
- Baden-Württemberg-class frigate (German Navy)
- Barbaros-class frigate (Turkish Navy)
- Bhumibol Adulyadej-class frigate (Royal Thai Navy)
- Brandenburg-class frigate (German Navy)
- Bremen-class frigate (German Navy)
- Cheng Kung-class frigate (Republic of China Navy)
- Constellation-class frigate (United States Navy)
- FREMM multipurpose frigate (French Navy, Italian Navy, Royal Moroccan Navy)
- Fridtjof Nansen-class frigate (Royal Norwegian Navy)
- Halifax-class frigate (Royal Canadian Navy)
- Horizon-class frigate (French Navy, Italian Navy)
- Hydra-class frigate (Hellenic Navy)
- Jinnah-class frigate (Pakistan Navy)
- Naresuan-class frigate (Royal Thai Navy)
- Nilgiri-class frigate (Indian Navy)
- Oliver Hazard Perry-class frigate (United States Navy)
- Sachsen-class frigate (German Navy)
- Santa María-class frigate (Spanish Navy)
- Shivalik-class frigate (Indian Navy)
- Valour-class frigate (South African Navy)
- Vasco da Gama-class frigate (Portuguese Navy)
- Ulsan-class frigate (Republic of Korea Navy)
- Istanbul-class frigate (Turkish Navy)[8]
- Supply-class fast combat support ship (United States Navy)
Maritime Prepositioning Force:
- Watson-class vehicle cargo ship (United States Navy)
- Independence-class littoral combat ship (United States Navy)
- Pohjanmaa-class corvette (Finnish Navy)
- Niels Juel-class corvette (Royal Danish Navy)
- Sa'ar 5-class corvette (Israeli Navy)
- BRP Conrado Yap (PS-39) (Philippine Navy)
- Inhauma-class corvette (Brazilian Navy)
- Ada-class corvette (Turkish Navy)
- Next Generation Missile Vessels (Indian Navy)
Maritime Security Cutter, Large:
- Legend-class cutter (United States Coast Guard)
- Pegasus-class hydrofoil (United States Navy)
- Mandau-class fast attack craft (Indonesian Navy)
- Queen Mary 2 ocean liner (Cunard Line)
- Vista-class cruise ship (Holland America Line)
- Coral-class cruise ship (Princess Cruises)
- Gem-class cruise ship (Princess Cruises)
- Millennium-class cruise ship (Celebrity Cruises)
- Radiance-class cruise ship (Royal Caribbean International)
Variants
[edit]The LM2500 is available in 3 different versions:
- The LM2500 delivers 33,600 shp (25,100 kW) with a thermal efficiency of 37 percent at ISO conditions. When coupled with an electric generator, it delivers 24 MW of electricity at 60 Hz with a thermal efficiency of 36 percent at ISO conditions.[9]
- The improved, 3rd generation, LM2500+ version of the turbine delivers 40,500 shp (30,200 kW) with a thermal efficiency of 39 percent at ISO conditions. When coupled with an electric generator, it delivers 29 MW of electricity at 60 Hz with a thermal efficiency of 38 percent at ISO conditions.[10][11]
- The latest, 4th generation, LM2500+G4 version was introduced in November 2005 and delivers 47,370 shp (35,320 kW) with a thermal efficiency of 39.3 percent at ISO conditions.[12]
Derivatives
[edit]- The GE TM2500 is derived from the LM2500, and mounted on a trailer that makes it possible to move it to wherever 30 MW of temporary electricity generation is required.[13] It can be installed and commissioned in 11 days.[14]
Specification
[edit]The basic LM2500 has a single shaft gas generator derived from the CF6, comprising a 16 stage compressor driven by a two stage air-cooled HP turbine. The combustion chamber is annular. Shaft power is generated by a 6-stage power turbine mounted in the gas generator exhaust stream Additional power is obtained from the LM2500+ by the addition of a zero stage to the compressor, making 17 stages in all. Specifications for three models of LM2500 series gas turbine engines:
| Performance Category | LM2500[15][16][17] | LM2500+[18][19][17] | LM2500+G4[20][21][17] |
|---|---|---|---|
| Output | 33,600 shp (25,060 kW) | 40,500 shp (30,200 kW) | 47,370 shp (35,320 kW) |
| Fuel consumption | 0.373 lb/shp-hr (227 g/kW-hr) | 0.354 lb/shp-hr (215 g/kW-hr) | 0.325 lb/shp-hr (214 g/kW-hr) |
| Heat rate | 6,860 Btu/shp-hr (9,705 kJ/kW-hr) | 6,522 Btu/shp-hr (9,227 kJ/kW-hr) | 6,469 Btu/shp-hr (9,150 kJ/kW-hr) |
| Exhaust gas flow | 155 lb/s (70.5 kg/s) | 189 lb/s (85.9 kg/s) | 205 lb/s (93 kg/s) |
| Exhaust gas temperature | 1,051°F (566°C) | 965°F (518°C) | 1,020°F (549°C) |
| Turbine speed (rpm) | 3,600 | 3,600 | 3,600 |
| Thermal efficiency | 36% | 38% | 39% |
| Weight | 4.7 ton | 5.25 ton | 5.25 ton |
See also
[edit]Related development
Comparable engines
Related lists
References
[edit]- ^ "GE Marine to Supply IHI with LM2500 Gas Turbines to Power Japan's 15DDG AEGIS Destroyer" (Press release). GE Aviation. 6 May 2004. Archived from the original on 17 October 2006.
- ^ "From aircraft to blowout preventer, GE's global technology cross-pollinates". World Oil Online. 10 September 2012. Archived from the original on 14 March 2014. Retrieved 10 September 2012.
- ^ "GTS Admiral W.M. Callaghan | MARAD". www.maritime.dot.gov. Archived from the original on 1 October 2020. Retrieved 11 August 2020.
- ^ GE Marine Solutions Military page[permanent dead link]
- ^ "GE to Provide IHI with LM2500 and LM500 Gas Turbines for Japan's New 24DDH Destroyer; IHI/GE Celebrate Milestone | GE Aviation". www.geaviation.com. Retrieved 29 July 2022.
- ^ "Japan's IHI rigged data for over 4,000 engines at least since 2003". english.kyodonews.net. Kyodo News. Retrieved 29 April 2024.
- ^ "IHI Subsidiary Falsifies Data on Engine Performances of Ships and Trains". The Japan News. Retrieved 29 April 2024.
- ^ "'GE Marine has Long Been a Trusted Supplier to the Turkish Naval Forces!'".
- ^ "LM2500 Marine Gas Turbine Data Sheet" (PDF). GE Aviation. Archived from the original (PDF) on 15 September 2012. Retrieved 4 January 2014.
- ^ "LM2500+ Marine Gas Turbine Data Sheet" (PDF). GE Aviation. Archived from the original on 29 July 2012.
{{cite web}}: CS1 maint: bot: original URL status unknown (link) - ^ Ramsdal, Roald (27 October 2014). "På disse plattformene fyrer de minst for måkene". Teknisk Ukeblad. Archived from the original on 28 October 2014.
- ^ "LM2500+G4 Marine Gas Turbine Data Sheet" (PDF). GE Aviation. Archived from the original (PDF) on 14 March 2014. Retrieved 27 July 2012.
- ^ "GE TM2500 Gas Turbine". VBR Turbine Partners. Retrieved 30 August 2019.
- ^ "Mobile Aeroderivative Gas Turbine TM2500". general Electric. Retrieved 30 August 2019.
- ^ "LM2500". Archived from the original on 13 May 2016. Retrieved 16 May 2016.
- ^ "LM2500 engine" (PDF). Archived (PDF) from the original on 22 October 2016. Retrieved 16 May 2016.
- ^ a b c "LM2500 series gas turbine engine". Archived from the original on 25 March 2016. Retrieved 16 May 2016.
- ^ "LM2500+". Archived from the original on 14 May 2016. Retrieved 16 May 2016.
- ^ "LM2500+ engine" (PDF). Archived (PDF) from the original on 22 October 2016. Retrieved 16 May 2016.
- ^ "LM2500+G4". Archived from the original on 14 May 2016. Retrieved 16 May 2016.
- ^ "LM2500+G4 engine" (PDF). Archived (PDF) from the original on 10 January 2017. Retrieved 16 May 2016.
External links
[edit]
Wikimedia Commons has media related to GE LM2500.