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Turboprop

January 17, 2023

Not to be confused with propfan or turbofan.

A turboprop is a turbine engine that drives an aircraft propeller.[1]

GE T64 turboprop, with the propeller on the left, the gearbox with accessories in the middle, and the gas generator (turbine) on the right

A turboprop consists of an intake, reduction gearbox, compressor, combustor, turbine, and a propelling nozzle.[2] Air enters the intake and is compressed by the compressor. Fuel is then added to the compressed air in the combustor, where the fuel-air mixture then combusts. The hot combustion gases expand through the turbine stages, generating power at the point of exhaust. Some of the power generated by the turbine is used to drive the compressor and electric generator. The gases are then exhausted from the turbine. In contrast to a turbojet or turbofan, the engine's exhaust gases do not provide enough energy to create significant thrust, since almost all of the engine's power is used to drive the propeller.[3]

Technological aspects

 
Schematic diagram showing the operation of a turboprop engine
 
Propulsive efficiency comparison for various gas turbine engine configurations

Exhaust thrust in a turboprop is sacrificed in favor of shaft power, which is obtained by extracting additional power (beyond that necessary to drive the compressor) from turbine expansion. Owing to the additional expansion in the turbine system, the residual energy in the exhaust jet is low.[4][5][6] Consequently, the exhaust jet produces about 10% of the total thrust.[7] A higher proportion of the thrust comes from the propeller at low speeds and less at higher speeds.[8]

Turboprops have bypass ratios of 50-100,[9][10] although the propulsion airflow is less clearly defined for propellers than for fans.[11][12]

The propeller is coupled to the turbine through a reduction gear that converts the high RPM/low torque output to low RPM/high torque. The propeller itself is normally a constant-speed (variable pitch) propeller type similar to that used with larger aircraft reciprocating engines, except that the propeller-control requirements are very different.[13]

To make the engine more compact, reverse airflow can be used. On a reverse-flow turboprop engine, the compressor intake is at the aft of the engine, and the exhaust is situated forward, reducing the distance between the turbine and the propeller.[14]

Unlike the small-diameter fans used in turbofan engines, the propeller has a large diameter that lets it accelerate a large volume of air. This permits a lower airstream velocity for a given amount of thrust. Since it is more efficient at low speeds to accelerate a large amount of air by a small degree than a small amount of air by a large degree,[15][16] a low disc loading (thrust per unit disc area) increases the aircraft's energy efficiency, and this reduces the fuel use.[17][18]

Propellers work well until the flight speed of the aircraft is high enough that the airflow past the blade tips reaches the speed of sound. Beyond that speed, the proportion of the power that drives the propeller that is converted to propeller thrust falls dramatically. For this reason turboprop engines are not used on aircraft[4][5][6] that fly faster than 0.6–0.7 Mach.[7] However, propfan engines, which are very similar to turboprop engines, can cruise at flight speeds approaching 0.75 Mach. To maintain propeller efficiency across a wide range of airspeeds, turboprops use constant-speed (variable-pitch) propellers. The blades of a constant-speed propeller increase their pitch as aircraft speed increases. Another benefit of this type of propeller is that it can also be used to generate reverse thrust to reduce stopping distance on the runway. Additionally, in the event of an engine failure, the propeller can be feathered, thus minimizing the drag of the non-functioning propeller.[19]

While the power turbine may be integral with the gas generator section, many turboprops today feature a free power turbine on a separate coaxial shaft. This enables the propeller to rotate freely, independent of compressor speed.[20]

History

Alan Arnold Griffith had published a paper on compressor design in 1926. Subsequent work at the Royal Aircraft Establishment investigated axial compressor-based designs that would drive a propeller. From 1929, Frank Whittle began work on centrifugal compressor-based designs that would use all the gas power produced by the engine for jet thrust.[21]

The world's first turboprop was designed by the Hungarian mechanical engineer György Jendrassik.[22] Jendrassik published a turboprop idea in 1928, and on 12 March 1929 he patented his invention. In 1938, he built a small-scale (100 Hp; 74.6 kW) experimental gas turbine.[23] The larger Jendrassik Cs-1, with a predicted output of 1,000 bhp, was produced and tested at the Ganz Works in Budapest between 1937 and 1941. It was of axial-flow design with 15 compressor and 7 turbine stages, annular combustion chamber. First run in 1940, combustion problems limited its output to 400 bhp. In 1941, the engine was abandoned due to war, and the factory was turned over to conventional engine production.

 
A Rolls-Royce RB.50 Trent on a test rig at Hucknall, in March 1945

The first mention of turboprop engines in the general public press was in the February 1944 issue of the British aviation publication Flight, which included a detailed cutaway drawing of what a possible future turboprop engine could look like. The drawing was very close to what the future Rolls-Royce Trent would look like.[24] The first British turboprop engine was the Rolls-Royce RB.50 Trent, a converted Derwent II fitted with reduction gear and a Rotol 7 ft 11 in (2.41 m) five-bladed propeller. Two Trents were fitted to Gloster Meteor EE227 — the sole "Trent-Meteor" — which thus became the world's first turboprop-powered aircraft, albeit a test-bed not intended for production.[25][26] It first flew on 20 September 1945. From their experience with the Trent, Rolls-Royce developed the Rolls-Royce Clyde, the first turboprop engine to receive a type certificate for military and civil use,[27] and the Dart, which became one of the most reliable turboprop engines ever built. Dart production continued for more than fifty years. The Dart-powered Vickers Viscount was the first turboprop aircraft of any kind to go into production and sold in large numbers.[28] It was also the first four-engined turboprop. Its first flight was on 16 July 1948. The world's first single engined turboprop aircraft was the Armstrong Siddeley Mamba-powered Boulton Paul Balliol, which first flew on 24 March 1948.[29]

 
The Kuznetsov NK-12 is the most powerful turboprop to enter service

The Soviet Union built on German World War II turboprop preliminary design work by Junkers Motorenwerke, while BMW, Heinkel-Hirth and Daimler-Benz also worked on projected designs.[30] While the Soviet Union had the technology to create the airframe for a jet-powered strategic bomber comparable to Boeing's B-52 Stratofortress, they instead produced the Tupolev Tu-95 Bear, powered with four Kuznetsov NK-12 turboprops, mated to eight contra-rotating propellers (two per nacelle) with supersonic tip speeds to achieve maximum cruise speeds in excess of 575 mph, faster than many of the first jet aircraft and comparable to jet cruising speeds for most missions. The Bear would serve as their most successful long-range combat and surveillance aircraft and symbol of Soviet power projection throughout the end of the 20th century. The USA used turboprop engines with contra-rotating propellers, such as the Allison T40, on some experimental aircraft during the 1950s. The T40-powered Convair R3Y Tradewind flying-boat was operated by the U.S. Navy for a short time.

The first American turboprop engine was the General Electric XT31, first used in the experimental Consolidated Vultee XP-81.[31] The XP-81 first flew in December 1945, the first aircraft to use a combination of turboprop and turbojet power. The technology of Allison's earlier T38 design evolved into the Allison T56, used to power the Lockheed Electra airliner, its military maritime patrol derivative the P-3 Orion, and the C-130 Hercules military transport aircraft.

The first turbine-powered, shaft-driven helicopter was the Kaman K-225, a development of Charles Kaman's K-125 synchropter, which used a Boeing T50 turboshaft engine to power it on 11 December 1951.[32]

Usage

 
A military transport aircraft, over 2,500 Lockheed C-130 Hercules have been built

In contrast to turbofans, turboprops are most efficient at flight speeds below 725 km/h (450 mph; 390 knots) because the jet velocity of the propeller (and exhaust) is relatively low. Modern turboprop airliners operate at nearly the same speed as small regional jet airliners but burn two-thirds of the fuel per passenger.[33] However, compared to a turbojet (which can fly at high altitude for enhanced speed and fuel efficiency) a propeller aircraft has a lower ceiling.[why?]

 
The Beech King Air and Super King Air are the most-delivered turboprop business aircraft, with a combined 7,300 examples as of May 2018[34]

Compared to piston engines, their greater power-to-weight ratio (which allows for shorter takeoffs) and reliability can offset their higher initial cost, maintenance and fuel consumption. As jet fuel can be easier to obtain than avgas in remote areas, turboprop-powered aircraft like the Cessna Caravan and Quest Kodiak are used as bush airplanes.

Turboprop engines are generally used on small subsonic aircraft, but the Tupolev Tu-114 can reach 470 kn (870 km/h, 541 mph). Large military aircraft, like the Tupolev Tu-95, and civil aircraft, such as the Lockheed L-188 Electra, were also turboprop powered. The Airbus A400M is powered by four Europrop TP400 engines, which are the second most powerful turboprop engines ever produced, after the 11 MW (15,000 hp) Kuznetsov NK-12.

In 2017, the most widespread turboprop airliners in service were the ATR 42/72 (950 aircraft), Bombardier Q400 (506), De Havilland Canada Dash 8-100/200/300 (374), Beechcraft 1900 (328), de Havilland Canada DHC-6 Twin Otter (270), Saab 340 (225).[35] Less widespread and older airliners include the BAe Jetstream 31, Embraer EMB 120 Brasilia, Fairchild Swearingen Metroliner, Dornier 328, Saab 2000, Xian MA60, MA600 and MA700, Fokker 27 and 50.

Turboprop business aircraft include the Piper Meridian, Socata TBM, Pilatus PC-12, Piaggio P.180 Avanti, Beechcraft King Air and Super King Air. In April 2017, there were 14,311 business turboprops in the worldwide fleet.[36]

Reliability

Between 2012 and 2016, the ATSB observed 417 events with turboprop aircraft, 83 per year, over 1.4 million flight hours: 2.2 per 10,000 hours. Three were "high risk" involving engine malfunction and unplanned landing in single‑engine Cessna 208 Caravans, four "medium risk" and 96% "low risk". Two occurrences resulted in minor injuries due to engine malfunction and terrain collision in agricultural aircraft and five accidents involved aerial work: four in agriculture and one in an air ambulance.[37]

Current engines

Jane's All the World's Aircraft. 2005–2006.

Manufacturer Country Designation Dry weight (kg) Takeoff rating (kW) Application
DEMC   People's Republic of China WJ5E 720 2130 Harbin SH-5, Xi'an Y-7
Europrop International   European Union TP400-D6 1800 8203 Airbus A400M
General Electric   United States CT7-5A 365 1294
General Electric   United States CT7-9 365 1447 CASA/IPTN CN-235, Let L-610, Saab 340, Sukhoi Su-80
General Electric   United States   Czech Republic H80 Series[38] 200 550–625 Thrush Model 510, Let 410NG, Let L-410 Turbolet UVP-E, CAIGA Primus 150, Nextant G90XT
General Electric   United States T64-P4D 538 2535 Aeritalia G.222, de Havilland Canada DHC-5 Buffalo, Kawasaki P-2J
Honeywell   United States TPE331 Series 150–275 478–1650 Aero/Rockwell Turbo Commander 680/690/840/960/1000, Antonov An-38, Ayres Thrush, BAe Jetstream 31/32, BAe Jetstream 41, CASA C-212 Aviocar, Cessna 441 Conquest II, Dornier 228, General Atomics MQ-9 Reaper, Grum Ge man, Mitsubishi MU-2, North American Rockwell OV-10 Bronco, Piper PA-42 Cheyenne, RUAG 228NG, Short SC.7 Skyvan, Short Tucano, Swearingen Merlin, Fairchild Swearingen Metroliner, HAL HTT-40
Honeywell   United States LTP 101-700 147 522 Air Tractor AT-302, Piaggio P.166
KKBM   Russia NK-12MV 1900 11033 Antonov An-22, Tupolev Tu-95, Tupolev Tu-114
Progress   Ukraine TV3-117VMA-SB2 560 1864 Antonov An-140
Klimov   Russia TV7-117S 530 2100 Ilyushin Il-112, Ilyushin Il-114
Progress   Ukraine AI20M 1040 2940 Antonov An-12, Antonov An-32, Ilyushin Il-18
Progress   Ukraine AI24T 600 1880 Antonov An-24, Antonov An-26, Antonov An-30
LHTEC   United States LHTEC T800 517 2013 Ayres LM200 Loadmaster (not built)
OMKB   Russia TVD-20 240 1081 Antonov An-3, Antonov An-38
Pratt & Whitney Canada   Canada PT-6 Series 149–260 430–1500 Air Tractor AT-502, Air Tractor AT-602, Air Tractor AT-802, Beechcraft Model 99, Beechcraft King Air, Beechcraft Super King Air, Beechcraft 1900, Beechcraft T-6 Texan II, Cessna 208 Caravan, Cessna 425 Corsair/Conquest I, de Havilland Canada DHC-6 Twin Otter, Harbin Y-12, Embraer EMB 110 Bandeirante, Let L-410 Turbolet, Piaggio P.180 Avanti, Pilatus PC-6 Porter, Pilatus PC-12, Piper PA-42 Cheyenne, Piper PA-46-500TP Meridian, Shorts 360, Daher TBM 700, Daher TBM 850, Daher TBM 900, Embraer EMB 314 Super Tucano
Pratt & Whitney Canada   Canada PW120 418 1491 ATR 42-300/320
Pratt & Whitney Canada   Canada PW121 425 1603 ATR 42-300/320, Bombardier Dash 8 Q100
Pratt & Whitney Canada   Canada PW123 C/D 450 1603 Bombardier Dash 8 Q300
Pratt & Whitney Canada   Canada PW126 C/D 450 1950 BAe ATP
Pratt & Whitney Canada   Canada PW127 481 2051 ATR 72
Pratt & Whitney Canada   Canada PW150A 717 3781 Bombardier Dash 8 Q400
PZL   Poland TWD-10B 230 754 PZL M28
RKBM   Russia TVD-1500S 240 1044 Sukhoi Su-80
Rolls-Royce   United Kingdom Dart Mk 536 569 1700 Avro 748, Fokker F27, Vickers Viscount
Rolls-Royce   United Kingdom Tyne 21 1085 4500 Aeritalia G.222, Breguet Atlantic, Transall C-160
Rolls-Royce   United Kingdom 250-B17 88.4 313 Fuji T-7, Britten-Norman Turbine Islander, O&N Cessna 210, Soloy Cessna 206, Propjet Bonanza
Rolls-Royce   United Kingdom Allison T56 828–880 3424–3910 P-3 Orion, E-2 Hawkeye, C-2 Greyhound, C-130 Hercules
Rolls-Royce   United Kingdom AE2100A 715.8 3095 Saab 2000
Rolls-Royce   United Kingdom AE2100J 710 3424 ShinMaywa US-2
Rolls-Royce   United Kingdom AE2100D2, D3 702 3424 Alenia C-27J Spartan, Lockheed Martin C-130J Super Hercules
Rybinsk   Russia TVD-1500V 220 1156
Saturn   Russia TAL-34-1 178 809
Turbomeca   France Arrius 1D 111 313 Socata TB 31 Omega
Turbomeca   France Arrius 2F 103 376
Walter   Czech Republic M601 Series[39] 200 560 Let L-410 Turbolet, Aerocomp Comp Air 10 XL, Aerocomp Comp Air 7, Ayres Thrush, Dornier Do 28, Lancair Propjet, Let Z-37T, Let L-420, Myasishchev M-101T, PAC FU-24 Fletcher, Progress Rysachok, PZL-106 Kruk, PZL-130 Orlik, SM-92T Turbo Finist
Walter   Czech Republic M602A 570 1360 Let L-610
Walter   Czech Republic M602B 480 1500

See also

References

  1. ^ "Turboprop", Pilot's Handbook of Aeronautical Knowledge, Federal Aviation Administration, 2009.
  2. ^ "Aviation Glossary – Turboprop". dictionary.dauntless-soft.com. Retrieved 7 July 2019.
  3. ^ Rathore, Mahesh. Thermal Engineering. Tata McGraw-Hill Education. p. 968.
  4. ^ a b "Turboprop Engine" Glenn Research Center (NASA)
  5. ^ a b "Turboprop Thrust" Glenn Research Center (NASA)
  6. ^ a b "Variations of Jet Engines". smu.edu. Retrieved 31 August 2016.
  7. ^ a b ""The turbofan engine 18 April 2015 at the Wayback Machine", page 7. SRM Institute of Science and Technology, Department of aerospace engineering.
  8. ^ J. Russell (2 August 1996). Performance and Stability of Aircraft. Butterworth-Heinemann. p. 16. ISBN 0080538649.
  9. ^ Ilan Kroo and Juan Alonso. "Aircraft Design: Synthesis and Analysis, Propulsion Systems: Basic Concepts 18 April 2015 at the Wayback Machine" Stanford University School of Engineering, Department of Aeronautics and Astronautics Main page 23 February 2001 at the Wayback Machine
  10. ^ Prof. Z. S. Spakovszky. "11.5 Trends in thermal and propulsive efficiency" MIT turbines, 2002. Thermodynamics and Propulsion
  11. ^ "Propeller thrust" Glenn Research Center (NASA)
  12. ^ Philip Walsh, Paul Fletcher. "Gas Turbine Performance", page 36. John Wiley & Sons, 15 April 2008. Quote: "It has better fuel consumption than a turbojet or turbofan, due to a high propulsive efficiency.., achieving thrust by a high mass flow of air from the propeller at low jet velocity. Above 0.6 Mach number the turboprop in turn becomes uncompetitive, due mainly to higher weight and frontal area."
  13. ^ Airscrews For Turbines,Fairhurst, Flight magazine, 10 November 1949, p.609
  14. ^ Martin, Swayne (16 May 2019). "How A Turboprop Engine Works". Boldmethod. Retrieved 6 November 2021.{{cite web}}: CS1 maint: url-status (link)
  15. ^ Paul Bevilaqua. The shaft driven Lift Fan propulsion system for the Joint Strike Fighter 5 June 2011 at the Wayback Machine page 3. Presented 1 May 1997. DTIC.MIL Word document, 5.5 MB. Retrieved 25 February 2012.
  16. ^ Bensen, Igor. "How they fly – Bensen explains all" Gyrocopters UK. Retrieved 10 April 2014.
  17. ^ Johnson, Wayne. Helicopter theory pp3+32, Courier Dover Publications, 1980. Retrieved 25 February 2012. ISBN 0-486-68230-7
  18. ^ Wieslaw Zenon Stepniewski, C. N. Keys. Rotary-wing aerodynamics p3, Courier Dover Publications, 1979. Retrieved 25 February 2012. ISBN 0-486-64647-5
  19. ^ "Operating Propellers during Landing & Emergencies". experimentalaircraft.info. Retrieved 8 July 2019.
  20. ^ "An Engine Ahead of Its Time". PT6 Nation. Pratt & Whitney Canada.
  21. ^ Gunston Jet, p. 120
  22. ^ Gunston World, p.111
  23. ^ "Magyar feltalálók és találmányok – JENDRASSIK GYÖRGY (1898–1954)". SZTNH. Retrieved 31 May 2012.
  24. ^ "Our Contribution – How Flight Introduced and Made Familiar With Gas Turbines and Jet Propulsion" Flight, 11 May 1951, p. 569.
  25. ^ James p. 251-2
  26. ^ Green p.18-9
  27. ^ "rolls-royce trent – armstrong siddeley – 1950–2035 – Flight Archive". Flightglobal. Retrieved 31 August 2016.
  28. ^ Green p.82
  29. ^ Green p.81
  30. ^ Turbojet History And Development 1930-1960 Volume 1 Great Britain And Germany, Antony L. Kay 2007, ISBN 978 1 86126 912 6, various pages
  31. ^ Green p.57
  32. ^ . National Air and Space Museum. Archived from the original on 4 March 2016. Retrieved 4 April 2013.
  33. ^ . CAPA – Centre for Aviation. 9 July 2010. Archived from the original on 13 July 2010. Retrieved 9 July 2010.
  34. ^ "Beechcraft King Air 350i rolls out improved situational awareness, navigation" (Press release). Textron Aviation. 30 May 2018.
  35. ^ "787 stars in annual airliner census". Flightglobal. 14 August 2017.
  36. ^ "Business Aviation Market Update Report" (PDF). AMSTAT, Inc. April 2017.
  37. ^ Gordon Gilbert (25 June 2018). "ATSB Study Finds Turboprop Engines Safe, Reliable".
  38. ^ "The H-Series Engine | Engines | B&GA | GE Aviation". www.geaviation.com. Retrieved 1 June 2016.
  39. ^ [1], PragueBest s.r.o. . www.geaviation.cz. Archived from the original on 29 October 2017. Retrieved 1 June 2016. {{cite web}}: External link in |last= (help)

Bibliography

  • Green, W. and Cross, R.The Jet Aircraft of the World (1955). London: MacDonald
  • Gunston, Bill (2006). The Development of Jet and Turbine Aero Engines, 4th Edition. Sparkford, Somerset, England, UK: Patrick Stephens, Haynes Publishing. ISBN 0-7509-4477-3.
  • Gunston, Bill (2006). World Encyclopedia of Aero Engines, 5th Edition. Phoenix Mill, Gloucestershire, England, UK: Sutton Publishing Limited. ISBN 0-7509-4479-X.
  • James, D.N. Gloster Aircraft since 1917 (1971). London: Putnam & Co. ISBN 0-370-00084-6

Further reading

External links

  • Jet Turbine Planes by LtCol Silsbee USAAF, Popular Science, December 1945, first article on turboprops printed
  • Wikibooks: Jet propulsion
  • "Development of the Turboprop" – a 1950 Flight article on UK and US turboprop engines

January 17, 2023
turboprop, confused, with, propfan, turbofan, turboprop, turbine, engine, that, drives, aircraft, propeller, turboprop, with, propeller, left, gearbox, with, accessories, middle, generator, turbine, right, turboprop, consists, intake, reduction, gearbox, compr. Not to be confused with propfan or turbofan A turboprop is a turbine engine that drives an aircraft propeller 1 GE T64 turboprop with the propeller on the left the gearbox with accessories in the middle and the gas generator turbine on the right A turboprop consists of an intake reduction gearbox compressor combustor turbine and a propelling nozzle 2 Air enters the intake and is compressed by the compressor Fuel is then added to the compressed air in the combustor where the fuel air mixture then combusts The hot combustion gases expand through the turbine stages generating power at the point of exhaust Some of the power generated by the turbine is used to drive the compressor and electric generator The gases are then exhausted from the turbine In contrast to a turbojet or turbofan the engine s exhaust gases do not provide enough energy to create significant thrust since almost all of the engine s power is used to drive the propeller 3 Contents 1 Technological aspects 2 History 3 Usage 3 1 Reliability 4 Current engines 5 See also 6 References 6 1 Bibliography 7 Further reading 8 External linksTechnological aspects Edit Schematic diagram showing the operation of a turboprop engine Propulsive efficiency comparison for various gas turbine engine configurations Exhaust thrust in a turboprop is sacrificed in favor of shaft power which is obtained by extracting additional power beyond that necessary to drive the compressor from turbine expansion Owing to the additional expansion in the turbine system the residual energy in the exhaust jet is low 4 5 6 Consequently the exhaust jet produces about 10 of the total thrust 7 A higher proportion of the thrust comes from the propeller at low speeds and less at higher speeds 8 Turboprops have bypass ratios of 50 100 9 10 although the propulsion airflow is less clearly defined for propellers than for fans 11 12 The propeller is coupled to the turbine through a reduction gear that converts the high RPM low torque output to low RPM high torque The propeller itself is normally a constant speed variable pitch propeller type similar to that used with larger aircraft reciprocating engines except that the propeller control requirements are very different 13 To make the engine more compact reverse airflow can be used On a reverse flow turboprop engine the compressor intake is at the aft of the engine and the exhaust is situated forward reducing the distance between the turbine and the propeller 14 Unlike the small diameter fans used in turbofan engines the propeller has a large diameter that lets it accelerate a large volume of air This permits a lower airstream velocity for a given amount of thrust Since it is more efficient at low speeds to accelerate a large amount of air by a small degree than a small amount of air by a large degree 15 16 a low disc loading thrust per unit disc area increases the aircraft s energy efficiency and this reduces the fuel use 17 18 Propellers work well until the flight speed of the aircraft is high enough that the airflow past the blade tips reaches the speed of sound Beyond that speed the proportion of the power that drives the propeller that is converted to propeller thrust falls dramatically For this reason turboprop engines are not used on aircraft 4 5 6 that fly faster than 0 6 0 7 Mach 7 However propfan engines which are very similar to turboprop engines can cruise at flight speeds approaching 0 75 Mach To maintain propeller efficiency across a wide range of airspeeds turboprops use constant speed variable pitch propellers The blades of a constant speed propeller increase their pitch as aircraft speed increases Another benefit of this type of propeller is that it can also be used to generate reverse thrust to reduce stopping distance on the runway Additionally in the event of an engine failure the propeller can be feathered thus minimizing the drag of the non functioning propeller 19 While the power turbine may be integral with the gas generator section many turboprops today feature a free power turbine on a separate coaxial shaft This enables the propeller to rotate freely independent of compressor speed 20 History EditAlan Arnold Griffith had published a paper on compressor design in 1926 Subsequent work at the Royal Aircraft Establishment investigated axial compressor based designs that would drive a propeller From 1929 Frank Whittle began work on centrifugal compressor based designs that would use all the gas power produced by the engine for jet thrust 21 The world s first turboprop was designed by the Hungarian mechanical engineer Gyorgy Jendrassik 22 Jendrassik published a turboprop idea in 1928 and on 12 March 1929 he patented his invention In 1938 he built a small scale 100 Hp 74 6 kW experimental gas turbine 23 The larger Jendrassik Cs 1 with a predicted output of 1 000 bhp was produced and tested at the Ganz Works in Budapest between 1937 and 1941 It was of axial flow design with 15 compressor and 7 turbine stages annular combustion chamber First run in 1940 combustion problems limited its output to 400 bhp In 1941 the engine was abandoned due to war and the factory was turned over to conventional engine production A Rolls Royce RB 50 Trent on a test rig at Hucknall in March 1945 The first mention of turboprop engines in the general public press was in the February 1944 issue of the British aviation publication Flight which included a detailed cutaway drawing of what a possible future turboprop engine could look like The drawing was very close to what the future Rolls Royce Trent would look like 24 The first British turboprop engine was the Rolls Royce RB 50 Trent a converted Derwent II fitted with reduction gear and a Rotol 7 ft 11 in 2 41 m five bladed propeller Two Trents were fitted to Gloster Meteor EE227 the sole Trent Meteor which thus became the world s first turboprop powered aircraft albeit a test bed not intended for production 25 26 It first flew on 20 September 1945 From their experience with the Trent Rolls Royce developed the Rolls Royce Clyde the first turboprop engine to receive a type certificate for military and civil use 27 and the Dart which became one of the most reliable turboprop engines ever built Dart production continued for more than fifty years The Dart powered Vickers Viscount was the first turboprop aircraft of any kind to go into production and sold in large numbers 28 It was also the first four engined turboprop Its first flight was on 16 July 1948 The world s first single engined turboprop aircraft was the Armstrong Siddeley Mamba powered Boulton Paul Balliol which first flew on 24 March 1948 29 The Kuznetsov NK 12 is the most powerful turboprop to enter service The Soviet Union built on German World War II turboprop preliminary design work by Junkers Motorenwerke while BMW Heinkel Hirth and Daimler Benz also worked on projected designs 30 While the Soviet Union had the technology to create the airframe for a jet powered strategic bomber comparable to Boeing s B 52 Stratofortress they instead produced the Tupolev Tu 95 Bear powered with four Kuznetsov NK 12 turboprops mated to eight contra rotating propellers two per nacelle with supersonic tip speeds to achieve maximum cruise speeds in excess of 575 mph faster than many of the first jet aircraft and comparable to jet cruising speeds for most missions The Bear would serve as their most successful long range combat and surveillance aircraft and symbol of Soviet power projection throughout the end of the 20th century The USA used turboprop engines with contra rotating propellers such as the Allison T40 on some experimental aircraft during the 1950s The T40 powered Convair R3Y Tradewind flying boat was operated by the U S Navy for a short time The first American turboprop engine was the General Electric XT31 first used in the experimental Consolidated Vultee XP 81 31 The XP 81 first flew in December 1945 the first aircraft to use a combination of turboprop and turbojet power The technology of Allison s earlier T38 design evolved into the Allison T56 used to power the Lockheed Electra airliner its military maritime patrol derivative the P 3 Orion and the C 130 Hercules military transport aircraft The first turbine powered shaft driven helicopter was the Kaman K 225 a development of Charles Kaman s K 125 synchropter which used a Boeing T50 turboshaft engine to power it on 11 December 1951 32 Usage Edit A military transport aircraft over 2 500 Lockheed C 130 Hercules have been built In contrast to turbofans turboprops are most efficient at flight speeds below 725 km h 450 mph 390 knots because the jet velocity of the propeller and exhaust is relatively low Modern turboprop airliners operate at nearly the same speed as small regional jet airliners but burn two thirds of the fuel per passenger 33 However compared to a turbojet which can fly at high altitude for enhanced speed and fuel efficiency a propeller aircraft has a lower ceiling why The Beech King Air and Super King Air are the most delivered turboprop business aircraft with a combined 7 300 examples as of May 2018 34 Compared to piston engines their greater power to weight ratio which allows for shorter takeoffs and reliability can offset their higher initial cost maintenance and fuel consumption As jet fuel can be easier to obtain than avgas in remote areas turboprop powered aircraft like the Cessna Caravan and Quest Kodiak are used as bush airplanes Turboprop engines are generally used on small subsonic aircraft but the Tupolev Tu 114 can reach 470 kn 870 km h 541 mph Large military aircraft like the Tupolev Tu 95 and civil aircraft such as the Lockheed L 188 Electra were also turboprop powered The Airbus A400M is powered by four Europrop TP400 engines which are the second most powerful turboprop engines ever produced after the 11 MW 15 000 hp Kuznetsov NK 12 In 2017 the most widespread turboprop airliners in service were the ATR 42 72 950 aircraft Bombardier Q400 506 De Havilland Canada Dash 8 100 200 300 374 Beechcraft 1900 328 de Havilland Canada DHC 6 Twin Otter 270 Saab 340 225 35 Less widespread and older airliners include the BAe Jetstream 31 Embraer EMB 120 Brasilia Fairchild Swearingen Metroliner Dornier 328 Saab 2000 Xian MA60 MA600 and MA700 Fokker 27 and 50 Turboprop business aircraft include the Piper Meridian Socata TBM Pilatus PC 12 Piaggio P 180 Avanti Beechcraft King Air and Super King Air In April 2017 there were 14 311 business turboprops in the worldwide fleet 36 Reliability Edit Between 2012 and 2016 the ATSB observed 417 events with turboprop aircraft 83 per year over 1 4 million flight hours 2 2 per 10 000 hours Three were high risk involving engine malfunction and unplanned landing in single engine Cessna 208 Caravans four medium risk and 96 low risk Two occurrences resulted in minor injuries due to engine malfunction and terrain collision in agricultural aircraft and five accidents involved aerial work four in agriculture and one in an air ambulance 37 Current engines EditJane s All the World s Aircraft 2005 2006 Manufacturer Country Designation Dry weight kg Takeoff rating kW ApplicationDEMC People s Republic of China WJ5E 720 2130 Harbin SH 5 Xi an Y 7Europrop International European Union TP400 D6 1800 8203 Airbus A400MGeneral Electric United States CT7 5A 365 1294General Electric United States CT7 9 365 1447 CASA IPTN CN 235 Let L 610 Saab 340 Sukhoi Su 80General Electric United States Czech Republic H80 Series 38 200 550 625 Thrush Model 510 Let 410NG Let L 410 Turbolet UVP E CAIGA Primus 150 Nextant G90XTGeneral Electric United States T64 P4D 538 2535 Aeritalia G 222 de Havilland Canada DHC 5 Buffalo Kawasaki P 2JHoneywell United States TPE331 Series 150 275 478 1650 Aero Rockwell Turbo Commander 680 690 840 960 1000 Antonov An 38 Ayres Thrush BAe Jetstream 31 32 BAe Jetstream 41 CASA C 212 Aviocar Cessna 441 Conquest II Dornier 228 General Atomics MQ 9 Reaper Grum Ge man Mitsubishi MU 2 North American Rockwell OV 10 Bronco Piper PA 42 Cheyenne RUAG 228NG Short SC 7 Skyvan Short Tucano Swearingen Merlin Fairchild Swearingen Metroliner HAL HTT 40Honeywell United States LTP 101 700 147 522 Air Tractor AT 302 Piaggio P 166KKBM Russia NK 12MV 1900 11033 Antonov An 22 Tupolev Tu 95 Tupolev Tu 114Progress Ukraine TV3 117VMA SB2 560 1864 Antonov An 140Klimov Russia TV7 117S 530 2100 Ilyushin Il 112 Ilyushin Il 114Progress Ukraine AI20M 1040 2940 Antonov An 12 Antonov An 32 Ilyushin Il 18Progress Ukraine AI24T 600 1880 Antonov An 24 Antonov An 26 Antonov An 30LHTEC United States LHTEC T800 517 2013 Ayres LM200 Loadmaster not built OMKB Russia TVD 20 240 1081 Antonov An 3 Antonov An 38Pratt amp Whitney Canada Canada PT 6 Series 149 260 430 1500 Air Tractor AT 502 Air Tractor AT 602 Air Tractor AT 802 Beechcraft Model 99 Beechcraft King Air Beechcraft Super King Air Beechcraft 1900 Beechcraft T 6 Texan II Cessna 208 Caravan Cessna 425 Corsair Conquest I de Havilland Canada DHC 6 Twin Otter Harbin Y 12 Embraer EMB 110 Bandeirante Let L 410 Turbolet Piaggio P 180 Avanti Pilatus PC 6 Porter Pilatus PC 12 Piper PA 42 Cheyenne Piper PA 46 500TP Meridian Shorts 360 Daher TBM 700 Daher TBM 850 Daher TBM 900 Embraer EMB 314 Super TucanoPratt amp Whitney Canada Canada PW120 418 1491 ATR 42 300 320Pratt amp Whitney Canada Canada PW121 425 1603 ATR 42 300 320 Bombardier Dash 8 Q100Pratt amp Whitney Canada Canada PW123 C D 450 1603 Bombardier Dash 8 Q300Pratt amp Whitney Canada Canada PW126 C D 450 1950 BAe ATPPratt amp Whitney Canada Canada PW127 481 2051 ATR 72Pratt amp Whitney Canada Canada PW150A 717 3781 Bombardier Dash 8 Q400PZL Poland TWD 10B 230 754 PZL M28RKBM Russia TVD 1500S 240 1044 Sukhoi Su 80Rolls Royce United Kingdom Dart Mk 536 569 1700 Avro 748 Fokker F27 Vickers ViscountRolls Royce United Kingdom Tyne 21 1085 4500 Aeritalia G 222 Breguet Atlantic Transall C 160Rolls Royce United Kingdom 250 B17 88 4 313 Fuji T 7 Britten Norman Turbine Islander O amp N Cessna 210 Soloy Cessna 206 Propjet BonanzaRolls Royce United Kingdom Allison T56 828 880 3424 3910 P 3 Orion E 2 Hawkeye C 2 Greyhound C 130 HerculesRolls Royce United Kingdom AE2100A 715 8 3095 Saab 2000Rolls Royce United Kingdom AE2100J 710 3424 ShinMaywa US 2Rolls Royce United Kingdom AE2100D2 D3 702 3424 Alenia C 27J Spartan Lockheed Martin C 130J Super HerculesRybinsk Russia TVD 1500V 220 1156Saturn Russia TAL 34 1 178 809Turbomeca France Arrius 1D 111 313 Socata TB 31 OmegaTurbomeca France Arrius 2F 103 376Walter Czech Republic M601 Series 39 200 560 Let L 410 Turbolet Aerocomp Comp Air 10 XL Aerocomp Comp Air 7 Ayres Thrush Dornier Do 28 Lancair Propjet Let Z 37T Let L 420 Myasishchev M 101T PAC FU 24 Fletcher Progress Rysachok PZL 106 Kruk PZL 130 Orlik SM 92T Turbo FinistWalter Czech Republic M602A 570 1360 Let L 610Walter Czech Republic M602B 480 1500See also EditJet engine Jetboat Scimitar propeller Supercharger Tiltrotor TurbochargerReferences Edit Turboprop Pilot s Handbook of Aeronautical Knowledge Federal Aviation Administration 2009 Aviation Glossary Turboprop dictionary dauntless soft com Retrieved 7 July 2019 Rathore Mahesh Thermal Engineering Tata McGraw Hill Education p 968 a b Turboprop Engine Glenn Research Center NASA a b Turboprop Thrust Glenn Research Center NASA a b Variations of Jet Engines smu edu Retrieved 31 August 2016 a b The turbofan engine Archived 18 April 2015 at the Wayback Machine page 7 SRM Institute of Science and Technology Department of aerospace engineering J Russell 2 August 1996 Performance and Stability of Aircraft Butterworth Heinemann p 16 ISBN 0080538649 Ilan Kroo and Juan Alonso Aircraft Design Synthesis and Analysis Propulsion Systems Basic Concepts Archived 18 April 2015 at the Wayback Machine Stanford University School of Engineering Department of Aeronautics and Astronautics Main page Archived 23 February 2001 at the Wayback Machine Prof Z S Spakovszky 11 5 Trends in thermal and propulsive efficiency MIT turbines 2002 Thermodynamics and Propulsion Propeller thrust Glenn Research Center NASA Philip Walsh Paul Fletcher Gas Turbine Performance page 36 John Wiley amp Sons 15 April 2008 Quote It has better fuel consumption than a turbojet or turbofan due to a high propulsive efficiency achieving thrust by a high mass flow of air from the propeller at low jet velocity Above 0 6 Mach number the turboprop in turn becomes uncompetitive due mainly to higher weight and frontal area Airscrews For Turbines Fairhurst Flight magazine 10 November 1949 p 609 Martin Swayne 16 May 2019 How A Turboprop Engine Works Boldmethod Retrieved 6 November 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Paul Bevilaqua The shaft driven Lift Fan propulsion system for the Joint Strike Fighter Archived 5 June 2011 at the Wayback Machine page 3 Presented 1 May 1997 DTIC MIL Word document 5 5 MB Retrieved 25 February 2012 Bensen Igor How they fly Bensen explains all Gyrocopters UK Retrieved 10 April 2014 Johnson Wayne Helicopter theory pp3 32 Courier Dover Publications 1980 Retrieved 25 February 2012 ISBN 0 486 68230 7 Wieslaw Zenon Stepniewski C N Keys Rotary wing aerodynamics p3 Courier Dover Publications 1979 Retrieved 25 February 2012 ISBN 0 486 64647 5 Operating Propellers during Landing amp Emergencies experimentalaircraft info Retrieved 8 July 2019 An Engine Ahead of Its Time PT6 Nation Pratt amp Whitney Canada Gunston Jet p 120 Gunston World p 111 Magyar feltalalok es talalmanyok JENDRASSIK GYORGY 1898 1954 SZTNH Retrieved 31 May 2012 Our Contribution How Flight Introduced and Made Familiar With Gas Turbines and Jet Propulsion Flight 11 May 1951 p 569 James p 251 2 Green p 18 9 rolls royce trent armstrong siddeley 1950 2035 Flight Archive Flightglobal Retrieved 31 August 2016 Green p 82 Green p 81 Turbojet History And Development 1930 1960 Volume 1 Great Britain And Germany Antony L Kay 2007 ISBN 978 1 86126 912 6 various pages Green p 57 Smithsonian National Air and Space Museum Collections Kaman K 225 Long Description National Air and Space Museum Archived from the original on 4 March 2016 Retrieved 4 April 2013 More turboprops coming to the market maybe CAPA Centre for Aviation 9 July 2010 Archived from the original on 13 July 2010 Retrieved 9 July 2010 Beechcraft King Air 350i rolls out improved situational awareness navigation Press release Textron Aviation 30 May 2018 787 stars in annual airliner census Flightglobal 14 August 2017 Business Aviation Market Update Report PDF AMSTAT Inc April 2017 Gordon Gilbert 25 June 2018 ATSB Study Finds Turboprop Engines Safe Reliable The H Series Engine Engines B amp GA GE Aviation www geaviation com Retrieved 1 June 2016 1 PragueBest s r o History GE Aviation www geaviation cz Archived from the original on 29 October 2017 Retrieved 1 June 2016 a href Template Cite web html title Template Cite web cite web a External link in code class cs1 code last code help Bibliography Edit Green W and Cross R The Jet Aircraft of the World 1955 London MacDonald Gunston Bill 2006 The Development of Jet and Turbine Aero Engines 4th Edition Sparkford Somerset England UK Patrick Stephens Haynes Publishing ISBN 0 7509 4477 3 Gunston Bill 2006 World Encyclopedia of Aero Engines 5th Edition Phoenix Mill Gloucestershire England UK Sutton Publishing Limited ISBN 0 7509 4479 X James D N Gloster Aircraft since 1917 1971 London Putnam amp Co ISBN 0 370 00084 6Further reading EditVan Sickle Neil D et al 1999 Turboprop Engines Van Sickle s modern airmanship McGraw Hill Professional p 205 ISBN 978 0 07 069633 4 External links EditJet Turbine Planes by LtCol Silsbee USAAF Popular Science December 1945 first article on turboprops printed Wikibooks Jet propulsion Development of the Turboprop a 1950 Flight article on UK and US turboprop engines Retrieved from https en wikipedia org w index php title Turboprop amp oldid 1133817155, wikipedia, wiki, book, books, library,

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