Turbo-Union RB199

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"RB199" redirects here. For the galaxy, see RB 199.
RB199
RB199 at the
Royal Air Force Museum Hendon
Type Turbofan
Manufacturer Turbo-Union
First run 1971
Major applications Panavia Tornado

The Turbo-Union RB199 is a turbofan jet engine designed and built in the early 1970s by Turbo-Union, a joint venture between Rolls-Royce, MTU and Aeritalia. The only production application was the Panavia Tornado.

Design and development

Turbo Union RB199 turbofan engine on display at Montrose Air Station Heritage Centre

The RB199 originated with a requirement, in 1969, to power a new European

Turbo Union, with the RB199, and Pratt & Whitney who proposed the JTF16.[2] The Panavia MRCA would later be called the Panavia Tornado
.

Advanced engine studies at Bristol Siddeley had already been done to support the BAC/Dassault AFVG and were based on the Pegasus two-spool arrangement. At Rolls-Royce, where the three-shaft RB211 engine was in development, three shafts were considered better.[3] Rolls-Royce took over Bristol Siddeley in 1967 so the configuration for the RB199 was decided jointly, a three-shaft engine.

The overall design concept for the international collaborative program, three shafts and a bypass ratio (BPR) of about 1.2, was decided by Rolls-Royce. The bypass ratio was chosen for long-range, with low fuel consumption, particularly when throttled back. The selected BPR also gave a higher reheat boost than with smaller values used on similar engines.[4] The design of the individual modules was shared between Rolls-Royce, MTU and Fiat according to their existing expertise. Rolls-Royce designed the fan using scaled-down Pegasus knowledge, the combustor, the high pressure (HP) turbine and the reheat. The reheat used cold air combustion techniques, described by Sotheran[5] and which were derived from their experience with ramjets and plenum chamber burning (PCB) in Pegasus front nozzles.[6] Fiat had built turbines for the Viper so designed the low pressure (LP) turbine as well as the final nozzle. MTU designed the intermediate pressure(IP) and high pressure (HP) compressors, the IP turbine, and the thrust reverser.[7]

A three-spool arrangement reduces the pressure ratio on each compressor[8] so no variable stators were needed. To meet the short afterburner requirement an arrangement known as mix-then-burn, as used in current engines, was not possible because it was too long and heavy. The RB199 used a much shorter arrangement known as mix/burn.[9]

The RB199 first ran on 27 September 1971 at Patchway, UK.[10] It was flight-tested using an Avro Vulcan with the engine installed in a nacelle that was representative of the Tornado aircraft. The Vulcan first flew with the RB199 in 1972.

Service flying with the Royal Air Force, German Navy and German and Italian Air Forces in the European environment showed normal failure mechanisms for turbine blades,

HCF
) so development started on replacing the initial production equiaxed blades with single-crystal ones which last longer at high temperatures.

Sand ingestion tests had been done and passed as part of the qualification for service introduction but operating in desert conditions with the Royal Saudi Air Force produced new problems. Frequent flying in air carrying different sizes of sand particles caused deposits on the HP turbine blades from sand passing through the combustor. In addition, sand carried with the cooling air through the blades blocked the cooling holes. Single crystal blades were being introduced to improve the life of the blades for the European operating conditions and revised cooling hole arrangements were introduced at the same time to reduce the detrimental effect of sand on blade cooling. With incorporation of these blade processing and cooling changes "Desert Storm Tornado aircraft flew some of the most arduous missions of any Allied aircraft with reliability no worse than peacetime and no engines were rejected for HP Turbine blade defects."[11]

Looking back on the RB199 program in 2002 Chief Engineer for the RB199, Dr.Gordon Lewis, concluded "The final production standard provided satisfactory reliability and performance."[12]

Variants and applications

RB199 Mk 101
Initial variant powered first Tornado IDS deliveries, with a 38.7kN (8700lbf) dry thrust, 66.01kN (14840lbf) with afterburner.[13]
RB199 Mk 103
Powering
(reheat)
RB199 Mk 104
Powering the
Tornado F3 Air Defence Variant
, with a thrust rating of 40.5 kN (dry) 73 kN (reheat)
RB 199 Mk104D
Derivative used on the
BAe EAP.[13]
RB199 Mk 105
Powering Tornado ECR versions and applicable to IDS, with a thrust rating of 42.5 kN (dry) 74.3 kN (reheat)
RB199-122
A derivative of the Mk104 (originally designated Mk 104E[13]), powering the first two prototypes of the Eurofighter Typhoon (DA1 and DA2) until the initial versions of the Eurojet EJ200 were available.

Engines on display

Specifications (RB199-104)

Data from Rolls-Royce and MTU.[16][17]

General characteristics

  • Type: Turbofan
  • Length: 3,600 mm (142 in)
  • Diameter: 720 mm (28.3 in)
  • Dry weight: 976 kg (2,151 lb)

Components

  • Compressor: 3-stage LP, 3-stage IP, 6-stage HP
  • Turbine: Single-stage HP, single-stage IP, 2-stage LP

Performance

See also

Comparable engines

Related lists

References

Notes
  1. ISBN 0 531 03250 7
    p.112
  2. ISBN 1 85260 037 3
    , p.232
  3. ISBN 0 9530345 0 X
    , RB199- The Engine For Tornado by Dr. Gordon Lewis, p.50
  4. ISBN 92 835 0327 9
    CP 324, Round Table Discussion p.RTD-8
  5. ^ "Reheat Combustion Apparatus for Bypass Gas Turbine Engines".
  6. ISBN 92 835 0465 8
    ,High Performance Turbofan Afterburner Systems p.12-2
  7. ^ Flight International, 22 August 1981,RB.199: Compact Tornado power, p.552-558
  8. ISBN 92 835 0327 9
    , p.25-2
  9. ISBN 92 835 0465 8
    ,High Performance Turbofan Afterburner Systems p.12-5
  10. ISBN 0-617-01289-X
    .
  11. ^ https://archive.org/details/NASA_NTRS_Archive_19950013267?q=agard+cp+558, AGARD Conference Proceedings CP No.558, Erosion, Corrosion, Foreign Object Damage Effects in Gas Turbine Engines,Paper 1, Out of Area Experiences with the RB199 in Tornado
  12. ISBN 0 9530345 0 X
    , RB199- The Engine For Tornado by Dr. Gordon Lewis, p.50
  13. ^ a b c Taylor 1996, pp. 610–611
  14. ^ "Montrose Tornado will blow visitors away as Angus air station's star attraction". The Courier. Retrieved 18 June 2022.
  15. ^ "Engines List". City of Norwich Aviation Museum. Retrieved 27 August 2023.
  16. ^ RB199-104 data sheet Archived 2011-06-05 at the Wayback Machine Retrieved:27 July 2009
  17. ^ "RB199 Turbofan Engine" (PDF). MTU.
Bibliography

External links

Wikimedia Commons has media related to Rolls-Royce RB.199.
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