Rolls-Royce Nene

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RB.41 Nene
Rolls Royce Nene.jpg
Rolls-Royce Nene on display at RAAF Base Pearce, Western Australia - note the wire mesh grille around the air intake to prevent Foreign object damage
Type Turbojet
Manufacturer Rolls-Royce Limited
First run 27 October 1944
Major applications Canadair CT-133 Silver Star
Dassault Ouragan
de Havilland Vampire
Grumman F9F Panther
Hawker Sea Hawk
Number built 1,139 (J42)
Developed into Rolls-Royce RB.44 Tay
Klimov VK-1
Rolls-Royce Derwent

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This article is about the British jet engine. For the Hawaiian goose, see Nene (bird).

The Rolls-Royce RB.41 Nene is a 1940s British centrifugal compressor turbojet engine. The Nene was essentially an enlarged version of the Rolls-Royce Derwent with the minimal changes needed to deliver 5,000 lbf, making it the most powerful engine of its era. The Nene was Rolls-Royce's third jet engine to enter production, designed and built in an astonishingly short five-month period in 1944, first running on 27 October 1944 (which was possible mostly because it was largely a simple enlargement of an existing engine, rather than an all-new design).[1] It was named after the River Nene (and not the Hawaiian goose with the same name) in keeping with the company's tradition of naming its jet engines after rivers.

The design saw relatively little use in British aircraft designs, being passed over in favour of the axial-flow Avon that followed it. Its only widespread use in the UK was in the Hawker Sea Hawk and the Supermarine Attacker. In the US it was built under licence as the Pratt & Whitney J42, and it powered the Grumman F9F Panther. Its most widespread use was in the form of the Klimov VK-1, a reverse-engineered, modified and enlarged version which produced around 6,000lbs of thrust, and powered the famous Mikoyan-Gurevich MiG-15, a highly successful fighter aircraft which was built in vast numbers.

A more powerful slightly enlarged version of the Nene was produced as the Rolls-Royce Tay.

Design and development

An FMA IAe 33 Pulqui II without tail section, showing its Rolls-Royce Nene II turbojet

The Nene was designed and built as a result of an early 1944 Air Ministry request for an engine of 4,200 lb thrust, and an engine was schemed-out by Stanley Hooker and Adrian Lombard as the B.40. In the summer of 1944 Hooker visited the USA and discovered that General Electric already had two engine types of 4,000 lb thrust running. On returning to the UK Hooker decided to go for 5,000 lb of thrust, and working with Lombard the B.40 was transformed into the B.41, later to be called the Nene.

Based on the B.40, the centrifugal-type impeller was enlarged to 28.8 inches to handle an airflow of 80 lb/sec, while the overall diameter of the engine was reduced to 49.5 inches to decrease drag. Other features were incorporated from Derwent testing, with a Type 16 compressor casing, and nine individual combustion chambers developed by Lucas, and the resulting B.41 prototype was built within six weeks, and was ready for its first run on 27 October 1944. A number of snags delayed the run until nearly midnight, when with almost the entire day and night shift staff watching, an attempt was made to start the engine, without the inlet vanes, which had not yet been fitted. To everyone's dismay the engine refused to light - positioning the igniter was a trial-and-error affair at the time. On the next attempt, Denis Drew unscrewed the igniter and as the starter motor ran the engine up to speed, lit the engine with an oxy-acetylene torch. The engine was run up to 4,000 lb and more, and a cheer went up around the assembled personnel. Upon Hooker's arrival next morning, and informed that the inlet vanes had been fitted during the night, Hooker was satisfied to see the thrust gauge needle registering 5,000 lb, making the B.41 the most powerful jet engine in the world. Weight was around 1,600 lb.[2]

The Nene was based on the "straight-through" version of the basic Whittle-style layout, with the flow going directly through the engine from front to rear, as opposed to a "reverse-flow" type, which reverses the direction of air flow though the combustor section so that the turbine stage can be mounted within the combustor section; this allows for a more compact engine, but hinders the airflow and robs some power potential.[clarification needed] The Nene used a double-sided centrifugal compressor (twin centrifugal compressors, mounted back-to-back, giving twice the airflow without increase in compressor diameter) for improved pressure ratio and thus higher thrust. It was during the design of the Nene that Rolls decided to give their engines numbers as well as names, with the Welland and Derwent keeping their original Rover models, B/23 and B/26. It was later decided that these model designations looked too much like RAF bomber designations (i.e. "English Electric Canberra B.Mk 2" would often be shortened to "Canberra B.2"), and "R" was added to the front, the "R" signifying "Rolls" and the original Rover "B" signifying Barnoldswick.[citation needed] This RB designation scheme continued into the late 20th Century, with turbofan designs such as the RB.199, RB.203 and RB.211; the most recent family of Rolls-Royce turbofans (a development of the RB.211) goes under the simple designation "Rolls-Royce Trent", with variants given their own designator number or letter series (i.e. Trent 500, Trent 900, Trent 1000, Trent XWB, etc).

Early airborne tests of the Nene were undertaken in an Avro Lancastrian operated by Rolls-Royce from their Hucknall airfield. The two outboard Rolls-Royce Merlins were replaced by the jet engine. The Nene's first flight however was in a modified Lockheed XP-80 Shooting Star.[3]

After seeing the Nene running, at an after work drink at the Swan & Royal Hotel, Clitheroe, and hearing the complaints about a lack of any official application for the engine, someone - thought to be Whittle - suggested that the Nene be scaled-down to fit a Meteor nacelle. J.P. Herriot or Lombard did the calculation on a tablecloth and announced a thrust of 3,650 lb. At this time they were attempting to increase the Derwent's thrust from 2,200 lb to 2,450 lb, and the idea seemed "too good to be true". On hearing this, Hooker did a quick calculation and announced, "We've got a 600-mph Meteor".[4]

Drawings for the 0.855 scale Nene, now known as the Derwent V, were started on 1 January 1945 and on 7 June the engine began a 100-hour test at 2,600 lb, soon reaching 3,500 lb. Weight was 1,250 lb. By 1946 thrust had been increased to 4,200 lb using Nimonic 90 turbine blades.[4]

The development of the Nene was continued with this scaled-down version, the Derwent V having no direct relationship to the earlier Derwent series. On 7 November 1945, the first official air speed record by a jet aircraft was set by a Meteor F.3 of 606 miles per hour (975 km/h) powered by the scaled-down Nene, the Derwent V

Service use

The Rolls-Royce Avro Lancastrian Nene test bed in 1948 fitted with the jet engines in the outboard position

The Nene doubled the thrust of the earlier generation engines, with early versions providing about 5,000 lbf (22.2 kN), but remained generally similar in most ways. This should have suggested that it would be widely used in various designs, but the Gloster Meteor proved so successful with its Derwents that the Air Ministry felt there was no pressing need to improve upon it. Instead a series of much more capable designs using the Rolls-Royce Avon were studied, and the Nene generally languished.

The Nene was used to power the first civil jet aircraft,[5] a modified Vickers Viking, which flew first on 6 April 1948.[5]

Pratt and Whitney was given a licence to produce the Nene as the Pratt & Whitney J42, and it powered the Grumman F9F Panther.[6] Twenty-five were given to the Soviet Union as a gesture of goodwill - with reservation to not use for military purposes - with the agreement of Stafford Cripps. The Soviets reneged on the deal, and reverse engineered the Nene to develop the Klimov RD-45, and a larger version, the Klimov VK-1, which soon appeared in various Soviet fighters including Mikoyan-Gurevich MiG-15. It was briefly made under licence in Australia for use in the RAAF de Havilland Vampire fighters. It was also built by Orenda in Canada for use in 656 Canadair CT-133 Silver Star aircraft.

Variants

Nene Mk.3
With an electric starter motor and two torch igniters the Mk.3 powered the Supermarine Attacker F Mk.1.
Nene Mk.10
Similar to the Mk.102 but with a larger accessories wheelcase for the Lockheed T-33.
Nene Mk.101
With a bifurcated jet-pipe for the Hawker Sea Hawk, at a reduced output of 5,000 lbf (22.24 kN)
Nene Mk.102
Similar to the Mk.3, but incorporating more modern equipment, for the Supermarine Attacker FB Mk.2
Pratt & Whitney J42
US licence production
Kuznetsov RD-45
Unlicenced copy produced in the USSR

Applications

Nene

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2
Pratt & Whitney J42

Engines on display

A Complete Nene Engine is Displayed at the RAF Manston History Museum, Manston, Kent.

A sectioned Rolls-Royce Nene is on display at the Fleet Air Arm Museum, RNAS Yeovilton.

There is a cutaway Nene II on display at the New England Air Museum

A sectioned Hispano-Suiza Nene is on display at the Ailes Anciennes Toulouse Museum in France.

A DERWENT ( from Meteors and PULQUI I) , a NENE ( from the PULQUI II) and two Avon s ( 1 from Canberra and one from a Comet) are on display at the National Aeronautics Museum- Moron- Buenos Aires - Argentina

Specifications (Nene)

Cutaway view showing the combustion chambers and compressor

Data from [7]

General characteristics

  • Type: Centrifugal compressor turbojet
  • Length: 96.8 in (2,458.7 mm)
  • Diameter: 49.5 in (1,257.3 mm)
  • Dry weight: 1,600 lb (725.7 kg)

Components

  • Compressor: 1-stage double-sided centrifugal compressor
  • Combustors: 9 x can combustion chambers
  • Turbine: Single-stage axial
  • Fuel type: Kerosene (R.D.E.F./F/KER)
  • Oil system: pressure feed, dry sump with scavenge, cooling and filtration, oil grade 70 S.U. secs (13 cs) (D.T.D 44D) at 38 °C (100 °F)

Performance

  • Maximum thrust: 5,000 lbf (22.24 kN) at 12,300 rpm at sea level for take=off
  • Specific fuel consumption: 1.06 lb/lbf/hr (108.04 kg/kN/hr)
  • Thrust-to-weight ratio: 3.226 lbf/lb (0.0315 kN/kg)
  • Military, static: 5,000 lbf (22.24 kN) at 12,300 rpm at sea level
  • Max. cruising, static: 4,360 lbf (19.39 kN) at 12,000 rpm at sea level
  • Cruising, static: 3,620 lbf (16.10 kN) at 11,500 rpm at sea level
  • Idling, static: 120 lbf (0.53 kN) at 2,500 rpm at sea level

See also

Related development
Related lists

References

Notes
  1. Bingham 2004, pages 96-100
  2. "World Encyclopedia of Aero Engines - 5th edition" by Bill Gunston, Sutton Publishing, 2006, p.193
  3. http://www.flightglobal.com/pdfarchive/view/1946/1946%20-%200764.html
  4. 4.0 4.1 "World Encyclopedia of Aero Engines - 5th edition" by Bill Gunston, Sutton Publishing, 2006, p.194
  5. 5.0 5.1 http://www.flightglobal.com/pdfarchive/view/1949/1949%20-%200401.html
  6. Connors, p.202
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Bibliography
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  • Bridgman, L, (ed.) (1998) Jane's fighting aircraft of World War II. Crescent. ISBN 0-517-67964-7
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External links

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