Power Jets W.2

W.2
Preserved Power Jets W.2/700 at the Farnborough Air Sciences Trust (rear view).
Type	Turbojet
Manufacturer	Rover Car Company
First run	c.1941
Major applications	Gloster E.28/39 Gloster F.9/40
Developed from	Power Jets W.1
Developed into	Rolls-Royce Welland

The Power Jets W.2 was a British turbojet engine designed by Frank Whittle and Power Jets (Research and Development) Ltd. Like the earlier Power Jets W.1, the trombone configuration featured a simple double-sided centrifugal compressor, reverse-flow combustion chambers and an air-cooled axial-flow turbine section.

Design and development

In 1940 the Air Ministry placed a contract with the Gloster Aircraft Company for prototypes of a new twin-engined jet fighter aircraft to the requirement of F.9/40, this aircraft became the Gloster Meteor. At the same time Power Jets was authorised to design a new engine that was intended to power the same aircraft.^[1] The W.2 was built under contract by the Rover Car Company in the early 1940s. Relations between Power Jets and Rover were somewhat strained and development of the W.2 was very slow. However, in late 1942, Rover agreed to exchange their jet engine factory at Barnoldswick, Lancashire for the Rolls-Royce Meteor tank engine factory in Nottingham, with no money changing hands. At the behest of the UK government, Rolls-Royce thereupon assumed control of the W.2 project, with Frank Whittle and his small team at Power Jets acting in an advisory capacity. ^[2] Together, they ironed out the problems with the W.2 and finally put the engine into mass production as the 1,600 pounds-force (7.1 kN) thrust Rolls-Royce Welland. These engines were installed in the Gloster Meteor F Mk1 and early F Mk3's and entered service in 1944.

Variants

A Rover W.2B/26 on display at the Midland Air Museum

W.2

Design thrust of 1,600 pounds-force (7.1 kN) and a dry weight of approximately 850 pounds (390 kg). Early versions could not exceed 1000lbf thrust without compressor surge.

W.2Y

Direct flow combustion chamber design, May 1940, unbuilt.

W.2B

Rover developed unit.

W.2B/500

W.2/700

New compressor diffuser, improved compressor rotor and a static thrust of 2,000 pounds-force (8.9 kN) at 16,700 rpm.

W.2/800

No details beyond specifications.

W.2/850

A developed version of greater thrust of 2,485 pounds-force (11.05 kN) at 16,500 rpm and a higher dry weight of 950 pounds (430 kg).

Rolls-Royce Welland

Mass produced version of the W.2. Developed 1,600 pounds-force (7.1 kN) static thrust.

Rolls-Royce Derwent I

Straight-thru development of the trombone style W.2 configuration, with compressor and turbine upflowed by 25% to give 2,000 pounds-force (8.9 kN) static thrust

Applications

The following aircraft were used for test purposes only:

• Gloster E.28/39
• F.9/40
• Vickers Wellington

The W.2B/700 was to be used in the Miles M.52 supersonic research aircraft. In order to achieve the thrust required for supersonic flight, a version of the engine was developed using a turbine-driven "augmenter" ducted fan (an early form of turbofan). The NO.4 augmenter was mounted behind the engine, drawing fresh air through ducts surrounding the engine. Power was boosted even further by supplying the air to the world's first "reheat jetpipe" or afterburner which was actually a very early athodyd or ramjet. The hope was that this combination of the W.2/700, turbofan augmenter and re-heat/ramjet would produce the required power for the proposed 1,000 mph aircraft.^[3]

Engines on display

• A preserved W.2/700 is on public display at the Farnborough Air Sciences Trust.
• Another W.2/700 is part of the aero engine collection at Royal Air Force Museum Cosford.
• A sectioned W.2/700 at Lutterworth Museum
• A Rover W.2B/26 is on display at the Midland Air Museum.

Specifications (W.2/850)

Data from Jane's^[4]

General characteristics

• Type: Centrifugal flow turbojet
• Length:
• Diameter:
• Dry weight: 950 lb (431 kg)

Components

• Compressor: Single-stage double-sided centrifugal flow
• Combustors: Reverse flow can, 10 chambers
• Turbine: Single stage axial flow
• Fuel type: Kerosene

Performance

• Maximum thrust: 2,485 lbf (1,127 kgf) at 16,500 rpm
• Overall pressure ratio: 4:1
• Air mass flow: 47 lb/sec (21 kg/s)
• Fuel consumption: 2,610 lb/hr (1,185 kg/h)
• Thrust-to-weight ratio: 2.6:1

See also

Related development

• Power Jets W.1
• Rolls-Royce Welland

Related lists

• List of aircraft engines

References

Notes

Bibliography

External links

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• Flight, October 1945 - Sectional diagram of the W.2B
• A photograph in a 1962 issue of Flight of the Wellington W5389/G with W.2B installed