| Artouste | |
|---|---|
| |
| Turbomeca Artouste IIIB | |
| Type | Turboshaft |
| National origin | France |
| Manufacturer | Turbomeca |
| First run | 1947 |
| Major applications | Aérospatiale Alouette II Aérospatiale Alouette III |
| Developed into | Continental T51 |
The Turbomeca Artouste is an early French turboshaft engine, first run in 1947. Originally conceived as an auxiliary power unit (APU), it was soon adapted to aircraft propulsion, and found a niche as a powerplant for turboshaft-driven helicopters in the 1950s. Artoustes were licence-built by Bristol Siddeley (formerly Blackburn) in the UK, Hindustan Aeronautics Limited in India, and developed by Continental CAE in the US as the Continental T51. Two major versions of the Artouste were produced. The Artouste II family, mainly used in the Aérospatiale Alouette II helicopter, had a one-stage centrifugal compressor and a two-stage turbine, with gearbox-limited power of 300 kW (400 hp). The Artouste III family, mainly used in Aérospatiale's Alouette III and Lama helicopters, had a two-stage axial-centrifugal compressor and a three-stage turbine, with gearbox-limited power of 420–440 kW (560–590 hp).
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Test Run of Rolls Royce Artouste APU Engine
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Rolls Royce Artouste
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Rolls Royce Artouste APU Full Run - 19th Sept 2020
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Variants
- Artouste I
- Artouste II
- Artouste IIB, IIB1
- 300 kW (400 hp) for takeoff, 245 kW (330 hp) continuous[1]
- Artouste IIC, IIC1, IIC2, IIC5, IIC6
- 300 kW (400 hp) for takeoff, 245 kW (330 hp) continuous[1][2][3] (limited by engine gearbox)
- (Without gearbox limit, ratings are 390 kW (523 hp) for takeoff and 353 kW (473 hp) continuous)[4]
- Artouste IIIB
- 420 kW (563 hp) for takeoff, 405 kW (543 hp) continuous (limited by engine gearbox)[5][6][3]
- (Without gearbox limit, sea level ratings are 640 kW (858 hp) for takeoff and 515 kW (690 hp) continuous)[5]
- Artouste IIIB1, IIID
- 440 kW (590 hp) for takeoff, 405 kW (543 hp) continuous (limited by engine gearbox)[5][6]
- (Without gearbox limit, sea level ratings are 640 kW (858 hp) for takeoff and 515 kW (690 hp) continuous)[5]
- Continental T51
- Licence production and development of the Artouste in the United States
- Turbomeca Marcadau
- A turboprop variant, the Marcadau was a development of the Artouste II, producing 300 kW (402 hp) through a 2.3:1 reduction gearbox.
Applications
- Artouste
- Aérospatiale Alouette II
- Aérospatiale Alouette III
- Aerospatiale Lama
- Aerotécnica AC-14
- Atlas XH-1 Alpha
- Curtiss-Wright VZ-7
- Handley Page Victor - as APU
- Hawker Siddeley Trident - as APU
- IAR 316
- IAR 317
- Merckle SM 67
- Nord Norelfe
- Piasecki VZ-8 Airgeep
- SNCASO Farfadet
- Vickers VC10 - as APU
- Marcadau
Engines on display
A Turbomeca Artouste is on public display at:
- The Helicopter Museum (Weston)
- Aviodrome - Lelystad Airport - The Netherlands
Specifications (Artouste IIIB)
Data from Aircraft engines of the World 1970[7]
General characteristics
- Type: Turboshaft
- Length: 1,815 mm (71.5 in)
- Diameter: ~450 mm (18 in) (casing)
- Width: 507 mm (20.0 in)
- Height: 627 mm (24.7 in)
- Dry weight: 154 kg (340 lb)
Components
- Compressor: 1-stage axial + 1-stage centrifugal
- Combustors: Annular combustion chamber
- Turbine: 3-stage turbine
- Fuel type: Aviation Kerosene, such as Jet A, Jet A-1 or JP-4
- Oil system: Pressure spray at 4.6 bar (66 psi) with return
Performance
- Maximum power output:
- Take-off power: 437 kW (586 shp) (equivalent) (410 kW (550 shp) + 0.39 kN (88 lbf)) at 33,500 rpm, de-rated
- Maximum continuous power: 437 kW (586 shp) (equivalent) (410 kW (550 shp) + 0.39 kN (88 lbf)) at 33,500 rpm, to 5,000 m (16,000 ft)
- Overall pressure ratio: 5.2:1
- Air mass flow: 4.3 kg/s (9.5 lb/s)
- Turbine inlet temperature: JPT 773 K (500 °C) at 33,500 rpm
- Specific fuel consumption: 0.46 kg/kWh (0.76 lb/(hp⋅h)) (equivalent)
- Power-to-weight ratio: 2.84 kW/kg (1.73 hp/lb) (equivalent)
See also
Related development
Related lists
References
- Notes
- ^ a b Federal Aviation Administration (FAA) (20 March 2007). "Type Certificate Data Sheet No. E-300".
- ^ European Aviation Safety Agency (EASA) (1 August 2016). "Type-Certificate Data Sheet No. E.137" (PDF).
- ^ a b "Our products: Artouste". TURBOMECA - Safran Group. Archived from the original on 18 December 2008. Retrieved 1 September 2021.
- ^ Taylor, John W. R., F.R.Hist.S., A.R.Ae.S. (1965). Jane's All the World's Aircraft 1965-66. New York: McGraw-Hill Book Company. p. 460. ISBN 9780531039151.
{{cite book}}: CS1 maint: multiple names: authors list (link) - ^ a b c d Federal Aviation Administration (FAA) (20 March 2007). "Type Certificate Data Sheet E1IN".
- ^ a b European Aviation Safety Agency (EASA) (1 August 2016). "Type-Certificate Data Sheet No. E.091" (PDF).
- ^ Wilkinson, Paul H. (1970). Aircraft engines of the World 1970 (21st ed.). Washington D.C.: Paul H. Wilkinson. p. 178.
- Bibliography
- Gunston, Bill (1986). World Encyclopedia of Aero Engines. Wellingborough: Patrick Stephens. p. 163.
This page was last edited on 16 February 2024, at 19:54