The Rolls-Royce Avon was the first
axial flowjet engine designed and produced by
Rolls-Royce. Introduced in 1950, the engine went on to become one of their most successful post-
World War II engine designs. It was used in a wide variety of aircraft, both military and civilian, as well as versions for stationary and maritime power.
Production of the Avon aero engine version ended after 24 years in 1974.[1] Production of the Avon-derived industrial version continues to this day,[2] Since 2015 produced by
Siemens.[3][4]
The current version of the Avon, the Avon 200, is an industrial gas generator that is rated at 21,000–22,000 shp (15.7–16.4 MW). As of 2011, 1,200 Industrial Avons have been sold, and the type has established a 60,000,000 hour record for its class.[5]
Design and development
The engine was initially a private venture put forward for the English Electric Canberra.[6] Originally known as the AJ.65 for Axial Jet, 6,500 lbf the engine was based on an initial project concept by
Alan Arnold Griffith.[7] which combined an axial compressor with a combustion system and single-stage turbine using principles proven in the
Rolls-Royce Nene engine.
Design work began in 1945. The Avon design team was initially headed by
Stanley Hooker assisted by
Geoff Wilde. Development of the engine was moved from Barnoldswick to Derby in 1948 and Hooker subsequently left the company, moving to
Bristol Engines.[7]
The first engine ran on 25 March 1947, with a 12-stage compressor. The engine was difficult to start, would not accelerate and broke first-stage blades.[7] Two-position inlet guide vanes and compressor bleed were among the design changes which allowed the engine, as the RA.2, to run a 25-hour test[6] and fly in the two outboard positions on the converted
Avro Lancastrianmilitary serialVM732, from
Hucknall on 15 August 1948.
The first production engine, which needed a two-stage turbine, was the RA.3, or Avon Mk 101. Several modified versions of this design were produced in the Mk. 100 series.
The Avon 200 series was a complete redesign having very little in common with earlier Marks. Differences included a completely new combustion section and a 15-stage compressor based on that of the
Armstrong-Siddeley Sapphire.[1] The first application was the
Vickers Valiant.
Operational history
The engine entered production in 1950 as the RA.3/Mk.101 with 6,500 lbf (29 kN) thrust in the
English Electric Canberra B.2.[1] Similar versions were used in the Canberra B.6,
Hawker Hunter and
Supermarine Swift. Uprated versions followed, the RA.7/Mk.114 with 7,350 lbf (32,700 N) thrust in the
de Havilland Comet C.2, the RA.14/Mk.201, 9,500 lbf (42 kN) in the
Vickers Valiant and the RA.26, 10,000 lbf (44 kN) used in the Comet C.3 and Hawker Hunter F.6.[8] An Avon-powered de Havilland Comet 4 flew the first scheduled transatlantic jet service in 1958. The highest thrust version was the RA.29 Mk.301/2 (RB.146) used in later versions of the
English Electric Lightning. It produced 12,690 and 17,110 lbf (56,400 and 76,100 N)[9] with afterburning. Other aircraft to use the Avon included the
de Havilland Sea Vixen,
Supermarine Scimitar and
Fairey Delta2.
The RA.3/Mk.109 was produced under licence by
Svenska Flygmotor as the RM5, and an uprated RA.29 as the RM6 with 17,110 lbf (76,100 N) thrust. The RM5 powered the
Saab 32 Lansen and the RM6 powered the
Saab 35 Draken and all-weather fighter version of the Lansen (J 32B).
300 Avon 113s, and a larger number of Avon 203s[10] were produced under licence in Belgium by
Fabrique Nationale.
In the US the RA.28-49 was used in the VTOL
Ryan X-13 Vertijet aircraft.
The Avon continued in production for the
Sud Aviation Caravelle and English Electric (BAC) Lightning until 1974, by which time over 11,000 had been built. It remained in operational service with the RAF until 23 June 2006 in the
English Electric Canberra PR.9.
Initial design work was done on the 2-spool
RB.106/RB.128 as an Avon successor for large supersonic fighters.[7]
Variants and designations
AJ65
The original designation, standing for Axial Jet 6,500 lbf thrust
RA.1
Prototype engines for testing and development.
RA.2
Pre-production engines for testing – 6,000 lbf (27 kN)[11]
RA.3
Civil designation for the first Avon production mark. First avon with a two-stage turbine.[11] – 6,500 lbf (29 kN)
RA.7
Civil designation for the uprated version of the Avon RA.3. Electrically started.[11] – 7,350 lbf (32.7 kN)
RA.7R
RA.7 with reheat. Meant for use with an afterburner. Explosive-cartridge started. – 7,200–7,500 lbf (3,250–3,400 kp) without afterburner, 9,090–9,740 lbf (4,125–4,420 kp) with afterburner.[11]
RA.14
Civil designation for the uprated version of the Avon with can-annular combustion chamber and Sapphire style compressor – 9,500 lbf (42 kN)
RA.14R
RA.14 with reheat. – 9,500 lbf (4,300 kp) without afterburner, 12,300 lbf (5,590 kp) with afterburner.
RA.19
RA.19R
RA.19 with reheat. – 12,500 lbf (5,669 kp) with afterburner.[12]
RA.21
Production engine developed from the RA.7 – 8,050 lbf (35.8 kN)
RA.21R
Production engine developed from the RA.7R. Same as the Avon Mk.21.[11] – 7,600 lbf (3,460 kp) without afterburner, 9,690 lbf (4,394 kp) with afterburner.
RA.23R
RA.23 with reheat. – 10,000 lbf (4,535 kp) without afterburner, 13,000 lbf (5,895 kp) with afterburner.
Australian version built on license by
CAC for the
CAC Sabre Mk.31 – 7,500 lbf (33 kN)[15]
Avon Mk.21
Afterburning Swedish version built by RR and on license by
SFA for the
Saab 32A/C. Same as the RA.21R. Designated RM5A1. – 3,460 kp (7,600 lbf) without afterburner, 4,445–4,700 kp (9,800–10,360 lbf) with different afterburners.[14]
Avon Mk.21A
Improved Mk.21 with increased diameter on the engine outlet for more power. Built by RR and on license by
SFA for the
Saab 32A/C. Designated RM5A2. – 7,600 lbf (3,460 kp) without afterburner, 9,800–10,360 lbf (4,445–4,700 kp) with different afterburners.[14]
Avon Mk.23
Same as the Avon Mk.115.[11] Non-afterburning Swedish version built by RR for the
Hawker Hunter Mk.50. Designated RM5B1.[14] – 7,760 lbf (3,519 kp)[16]
Avon Mk.24
Non-afterburning Swedish version built by RR for the
Hawker Hunter Mk.50. Designated RM5B2.[14]
Avon Mk.25
Non-afterburning Swedish version built by RR for the
Hawker Hunter Mk.50. Designated RM5B3.[14]
Avon Mk.26
Australian version built by
CAC for the
CAC Sabre Mk.32 – 7,500 lbf (33 kN)[15]
Avon Series 200
Avon Series 200 are uprated military versions of the Avon with can-annular combustion chamber and Sapphire style compressor.
Avon Mk.200
– 9,500 lbf (42 kN)
Avon Mk.47A
Afterburning Swedish version built by RR and on license by
SFA for the
Saab 32B. Same as the RA.24R. Designated RM6A. – 10,800 lbf (4,880 kp) without afterburner, 6,500 kp (14,000 lbf) with afterburner.[14]
Avon Mk.48A
Afterburning Swedish version built by RR and on license by
SFA for the
Saab 35A/B/C. Designated RM6B. – 10,800 lbf (4,890 kp) without afterburner, 14,410 lbf (6,535 kp) with afterburner.[14]
Avon Series 300
Avon Series 300 are further developed military after-burning versions of the Avon for the
English Electric Lightning.
Avon Mk.300
– 12,690 lbf (56.4 kN)
Avon Mk.301
The ultimate Military Avon for the
English Electric Lightning – 12,690 lbf (56.4 kN) dry, 17,110 lbf (76.1 kN) wet.[9]
Avon Mk.302
Essentially similar to the Mk.301
Avon Mk.60
Afterburning Swedish version built by RR and on license by
SFA for the
Saab 35 Draken D/F. Same as the RA.29R. Designated RM6C. – 12,710 lbf (5,765 kp) without afterburner, 17,000 lbf (7,800 kp) with afterburner.[14]
Westinghouse XJ54
Avon 300-series scaled-down by
Westinghouse to 105 lb/sec airflow to produce 6,200 lb thrust.[17]
Avon Series 500
Avon Series 500 are civilian equivalents to the military Avon Series 200 variants.
The Avon is also currently marketed as a compact, high reliability, stationary power source. As the AVON 1533, it has a maximum continuous output of 21,480 shp (16.02 MW) at 7,900 rpm and a
thermal efficiency of 30%. An example can be found at
Didcot Power Station in the
United Kingdom where four Avon generators are used to provide
Black start services to assist in a restart of the
National Grid in the event of a system-wide failure, or to provide additional generating capacity in period of very high demand. [citation needed]
As a compact electrical generator, the type EAS1 Avon based generator can generate a continuous output of 14.9 MW.[citation needed]
On 4 October 1983, Richard Noble's
Thrust2 vehicle, powered by a single Rolls-Royce Avon 302 jet engine, set a new
land-speed record of 1,019.46 km/h (633.46 mph) at the Black Rock Desert in Nevada.
Surviving engines
Several Avon-powered
Hawker Hunter aircraft remain airworthy in private ownership in 2010.[18]
^
abcdefghStridsberg, Sven (1992). Lansen. Allt om hobby AB. pp. 27–32.
^Stridsberg, Sven (1992). Lansen. Allt om hobby AB. pp. 105–106.
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abc"Archived copy". www.flightglobal.com. Archived from
the original on 14 November 2012. Retrieved 15 January 2022.{{
cite web}}: CS1 maint: archived copy as title (
link)
^
abcdefghijklmnopqrKontakt 86, Flygmotorer. Kontaktgruppen för flyghistorisk forskning. 1988. pp. 25, 26, 27.
^
abRoux, Élodie (2007). Turbofan and turbojet engines : database handbook. Blagnac : Élodie Roux. p. 92.