Clerget aircraft engines

Clerget was the name given to a series of early rotary aircraft engine types of the World War I era that were designed by Pierre Clerget. Manufactured in France by Clerget-Blin and in Great Britain by Gwynnes Limited they were used on such aircraft as the Sopwith Camel and Vickers Gunbus.

In the 1920s Pierre Clerget turned his attention to diesel radial engines and finally produced a H-16 engine before he died in 1943.

Rotary engine development (spark ignition)

Cylinder head of a Clerget 9J, showing the two valve rockers and the induction pipe from the rear of the engine

What distinguished the Clerget rotary engine from its rivals (Gnome and Le Rhône) was that the Clerget had normal intake and exhaust valves unlike the Gnome, and the connecting rod arrangement was much simpler than the Le Rhone. A source of failure among the Clerget engines were the special-purpose piston rings, called obturator rings. These were located below the gudgeon or wrist pin, to block heat transfer from the combustion area to the lower part of the cylinder and overcome their subsequent distortion. These rings were often made from brass and only had a lifespan of a few hours. The Clerget engines were considered reliable but they cost more per unit to produce than their rivals. Unlike other contemporary rotaries in which the ignition system was either switched on or off to provide a rudimentary form of engine speed control, the Clerget featured a throttle.

The Bentley BR1 and Bentley BR2 rotaries were designed as improvements of the Clerget, while sharing some of the earlier engine's distinctive design features.

Design features

The Clerget rotary engines were air-cooled with either seven, nine or eleven cylinders. They were fitted with a double thrust ball race, which enabled them to be used either as a pusher or as a tractor engine.

The engines worked on a four-stroke cycle. The chief points of difference from other rotary engines were:

  • The pistons were of an aluminium alloy.
  • The connecting rods had a tubular section.
  • The inlet and exhaust valves were mechanically operated by means of separate cams, tappets and rocker arms.

The direction of rotation was counter (anti)-clockwise as seen from the propeller-end of the engine. Between any two consecutive firing strokes, the engine turned through 80 degrees. Like many other rotary engines of the period they were made chiefly of steel, for strength and lightness.

Rotary engine types

Clerget 7Z
(1911) 80 hp (60 kW), seven-cylinder.
Clerget 9B
(1913) 130 hp (97 kW), nine-cylinder.
Clerget 9Bf
(1915) 140 hp (104 kW), nine-cylinder long stroke version of the Clerget 9B. The most numerous British production engine with 2,350 units being built.
Clerget 9J
Clerget 9Z
(1917) 110 hp (82 kW), nine-cylinder. Redesigned with aluminium pistons, tubular connecting rods and revised valve gear.
Clerget 11Eb
(1918) 200 hp (150 kW), 11-cylinder, single-row engine.

Rotary engines on display

Operational rotary engines

The Shuttleworth Collection based at Old Warden Aerodrome in the UK, operate an airworthy late production Sopwith Triplane (G-BOCK)[1] fitted with an original 9B as well as an airworthy late production Sopwith Camel (G-BZSC)[2] fitted with an original long-stroke 9Bf. These aircraft can be seen displaying at home air displays through the summer months.

Radial 'X' engines

Clerget 16X
A 420 hp (310 kW) 16-cylinder, four-row X engine.

Diesel radial engines

A Clerget 14F diesel aircraft engine preserved at the Conservatoire de l'Air et de l'Espace d’Aquitaine

In the 1920s Pierre Clerget designed static diesel radial engines, the earliest were based on his rotary designs.

Clerget 9A

(1929) 100 hp (75 kW) Nine-cylinder, single row radial engine.[3]

Clerget 9B
Clerget 9C
Produced under licence by Hispano-Suiza as the Hispano-Suiza 9T
Clerget 14F-01

(1937) 14-cylinder, two-row radial engine, flown in a Potez 25 biplane.

Clerget 14F-02
Clerget 14Fcs

H-16 engine

Clerget's final engine design was an H-16 known as the Type Transatlantique. It developed 2,000 hp (1,500 kW) through the use of four turbochargers.

gollark: Which one's that?
gollark: I don't read memetic hazards like the "bible".
gollark: LyricLy, you are NOT SERIOUSLY CONSIDERING MY REQUEST if you just randomly picked the "first" application.
gollark: Protocol 43.
gollark: You should restore all of them to be sure.

See also

References

  1. The Shuttleworth Collection - Sopwith Triplane Retrieved: 21 August 2018
  2. The Shuttleworth Collection - Sopwith Camel Retrieved: 21 August 2018
  3. Grey, C.G., ed. (1931). Jane's all the World's Aircraft 1931. London: Sampson Low, Marston & company, ltd. p. 42d.
  • "Air Board" Technical Notes issued by Controller Technical Department for persons holding an official position in His Majesty's Service dated 1918
  • Gunston, Bill (1986). World Encyclopedia of Aero Engines. Wellingborough: Patrick Stephens. pp. 44–45.
  • Clerget Aero Engines: Instructions and List of Parts. Camden Miniature Steam Services. 2001 [1917]. ISBN 0-9536523-1-9.
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