de Havilland Ghost

Ghost
	A Swedish licensed-built de Havilland Ghost, the RM 2
Type	Turbojet
Manufacturer	de Havilland Engine Company
First run	2 September 1945
Major applications	de Havilland Comet ; de Havilland Venom ; de Havilland Sea Venom
Developed from	de Havilland Goblin

The de Havilland Ghost (originally Halford H-2) was the de Havilland Engine Company's second turbojet engine design to enter production and the world's first gas turbine engine to enter airline (BOAC) service. A scaled-up development of the Goblin, the Ghost powered the de Havilland Venom, de Havilland Comet and SAAB 29 Tunnan.^[1]

On 23 March 1948, John Cunningham, flying a modified Vampire Mk I, which had been furnished with extended wing tips, powered by a Ghost engine, achieved a new world altitude record, having attained a maximum altitude of 59,446 ft (18,119 m).^[2]

Design and development

de Havilland Ghost 50 at RAF Museum Cosford

The Ghost originated when de Havilland started work on what was to become the Comet in 1943. Frank Halford's first design, the H-1, was just entering production and he was able to meet the power requirements of the Comet by scaling up the H-1. The resulting H-2 used ten larger combustion chambers in place of the Goblin's sixteen smaller ones, using bifurcated "split intakes" which were fed by each diffuser duct. While the prototype was being built, de Havilland bought Halford's firm and reformed it as the de Havilland Engine Company, renaming the H-1 and H-2 as the Goblin and Ghost respectively.

The Ghost was running in 1944, and flew in 1945. This was long before the Comet or Venom was ready for flight. By this point the Ghost had been selected for the Swedish "JxR" fighter project, which eventually turned into the Tunnan. During the design of the Tunnan, Sweden received German data on swept wing designs via Switzerland and redesigned the plane to incorporate this planform. The Tunnan first flew in this form in 1948. For production versions of the Tunnan, the Ghost was built under licence by Svenska Flygmotor (later to become Volvo Aero) as the RM2. The Ghost was also licence built in Italy by Fiat^[3] and in Switzerland by Sulzer Brothers.^[4]

The Ghost would next be seen when the Comet I first took to the air on 27 July 1949. It was powered by the 5,000 lbf (22 kN) Ghost 50, which was the interim powerplant, pending the availability of the Avon engine which was to be used in the Comet 2. Several versions of the Ghost 50 were produced, ending with the Ghost 50-Mk.4 installed in the Comet 1XB which was built to test new fuselage construction techniques introduced to address problems with the Comet 1.

During development, the Royal Air Force also asked for an improved version of the de Havilland Vampire with greater load-carrying capacity and thus a larger engine. The resulting design was known as the Venom, and shared many features with the earlier Vampire. The Ghost first flew in the Venom on 2 September 1949. By this point the engine had been running for some time and was already at the Mk.103 model of 4,850 lbf (21,600 N). The Venom was used primarily as a fighter bomber, although some were also produced as night fighters. The Venom was later selected by the Fleet Air Arm for their interceptor needs, and was widely used as the Sea Venom.

Variants

Volvo Aero RM 2B at Flugmuseum Aviaticum, Wiener Neustadt

Ghost 45: rated at 4,400 lbf (19.57 kN)
Ghost 48: rated at 4,850 lbf (21.57 kN)
Ghost 50 Mk 1: rated at 5,000 lbf (22.24 kN) at 10,000 rpm with a weight of 2,011 lb (912 kg)
Ghost 50 Mk 2: rated at 5,125 lbf (22.80 kN)
Ghost 103: rated at 4,850 lbf (21.57 kN)
Ghost 104: rated at 4,950 lbf (22.02 kN)
Ghost 105: rated at 5,150 lbf (22.91 kN)
Svenska Flygmotor RM2: Licence production and development 5,000 lbf (22.24 kN) at 10,250 rpm
Svenska Flygmotor RM2B: RM2 with afterburner 6,200 lbf (27.58 kN) wet at 10,250 rpm; 4,750 lbf (21.13 kN) dry at 10,250 rpm.

Applications

Specifications (Ghost 50)

General characteristics

Type: Turbojet
Length: 121 in
Diameter: 53 in
Dry weight: 2,218 lb

Components

Compressor: Single stage centrifugal flow
Combustors: 10 chambers
Turbine: Single-stage
Fuel type: Kerosene

Performance

Maximum thrust: 5,000 lbf at 10,250 rpm
Overall pressure ratio: 4.6
Specific fuel consumption: 1.02 lb/hr/lbf
Power-to-weight ratio:

References

Notes

↑ Gunston 1989, p.52.
↑ Jackson 1987, p. 424.
↑ "World Encyclopedia of Aero Engines - 5th edition" by Bill Gunston, Sutton Publishing, 2006, P.74
↑ https://www.flightglobal.com/pdfarchive/view/1954/1954%20-%203209.html

Bibliography

Gunston, Bill. World Encyclopedia of Aero Engines. Cambridge, England. Patrick Stephens Limited, 1989. ISBN 1-85260-163-9
Smith, Geoffrey G.Gas Turbines and Jet Propulsion for Aircraft, London S.E.1, Flight Publishing Co.Ltd., 1946.
Kay, Anthony L. (2007). Turbojet History and Development 1930-1960. 1 (1st ed.). Ramsbury: The Crowood Press. ISBN 978-1-86126-912-6.

External links

RAF Museum
British jet engine website
"The de Havilland Ghost (DGT/50)" a 1947 Flight article

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[Gunston-1] Gunston 1989, p.52.

[FOOTNOTEJackson1987424-2] Jackson 1987, p. 424.

[3] "World Encyclopedia of Aero Engines - 5th edition" by Bill Gunston, Sutton Publishing, 2006, P.74

[4] ttps://www.flightglobal.com/pdfarchive/view/1954/1954%20-%203209.html

de Havilland aero engines
Piston engines	Ghost Gipsy Gipsy Junior Gipsy Minor Gipsy Major Gipsy Six Gipsy Queen Gipsy Twelve Gipsy King Iris
Turbojets	Ghost Goblin Gyron Gyron Junior
Turboprops/turboshafts	Gnome Gem
Rockets	Sprite Super Sprite Spectre
Designers	Geoffrey de Havilland Frank Halford

Svenska Flygmotor/Volvo Flygmotor/Volvo Aero aero engines
Reciprocating engines	B42 B44
Turbojets	RM1 RM2 RM4 RM5 RM6
Turbofans	RM8 RM12