Grace's Guide To British Industrial History

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Grace's Guide is the leading source of historical information on industry and manufacturing in Britain. This web publication contains 164,987 pages of information and 246,457 images on early companies, their products and the people who designed and built them.

Grace's Guide is the leading source of historical information on industry and manufacturing in Britain. This web publication contains 147,919 pages of information and 233,587 images on early companies, their products and the people who designed and built them.

Bristol Engine Co: Jupiter

From Graces Guide
1923. Bristol Jupiter. Exhibit at London Science Museum.
1923.
1924.
1924.
1924.
1924.
1924.
November 1927.
1951. Jupiter IV
Bristol Jupiter VIIF engine. Exhibit at the Shuttleworth Collection.
Jupiter Mk.VI engine on display at Aerospace Bristol
Cylinder head of Jupiter Mk.VI engine at Aerospace Bristol

Note: This is a sub-section of Bristol Engine Co

The Bristol Jupiter was a British 9-cylinder one-row piston radial engine built by Bristol Aeroplane Co. Originally designed late in World War I, a lengthy series of upgrades and developments turned it into one of the finest engines of its era. It was widely used on many aircraft designs though the 1920s and 30s.

It was also built under licence in France (as the Gnome-Rhône Jupiter), Poland (as the PZL Bristol Jupiter), Italy (as the Alfa Romeo 126-RC35) and in the Soviet Union (as the M-22). Thousands of Jupiters of all versions were produced.

The Jupiter was designed during World War I by Roy Fedden of Cosmos Engineering. During the rapid downscaling of military spending after the war, Cosmos went bankrupt in 1920, and was eventually purchased by the Bristol Aeroplane Co on the strengths of the Jupiter design and the encouragement of the Air Ministry. The engine matured into one of the most reliable on the market. Production started in 1918 and ceased in 1930.

The Jupiter was fairly standard in design, but featured four valves per cylinder, which was uncommon at the time. The cylinders were machined from steel forgings, and the cast heads were later replaced with aluminium alloy following studies by the RAE. In 1927 a change was made to a forged head due to the rejection rate of the castings.

In 1925 Roy Fedden started designing a replacement for the Jupiter. Using a shorter stroke to increase the rpm, and including a supercharger for added power, resulted in the Bristol Mercury of 1927. Applying the same techniques to the original Jupiter-sized engine in 1927 resulted in the Bristol Pegasus. Neither would fully replace the Jupiter for a few years.

The Jupiter is best known for powering the Handley Page HP.42 Hannibal airliners, which flew the London-Paris route in the 1920s. Other civilian uses included the de Havilland Giant Moth and de Havilland Hercules, the Junkers G 31 (which would evolve into the famous Junkers Ju 52), and the huge Dornier Do X flying boat which used no less than twelve engines.

Military uses were less common, but included the parent company's Bristol Bulldog, as well as the Gloster Gamecock and Boulton Paul Aircraft Sidestrand. It was also found in prototypes around the world, from Japan to Sweden.

The Jupiter saw widespread use in licensed versions, with fourteen countries eventually producing the engine. In France the Gnome-Rhone company produced a version that was used in several local civilian designs, as well as achieving some export success. Siemens-Halske took out a licence in Germany and produced several versions of increasing power, eventually resulting in the Bramo 323 Fafnir, which saw use in wartime models. In Japan, the Jupiter was licence-built from 1924 by Nakajima, forming the basis of their own subsequent radial aero-engine design, the Kotobuki. The most produced version was in the Soviet Union, where their M-22 version powered the famous Polikarpov I-16, which was built in the thousands.

General characteristics

  • Type: 9-cylinder naturally aspirated air-cooled radial engine
  • Bore: 5.75 in (146 mm)
  • Stroke: 7.5 in (190 mm)
  • Displacement: 1,750 in³ (28.7 L)
  • Dry weight: 730 lb (330 kg)

Components

  • Valve-train: Four valves per cylinder, two intake and two exhaust
  • Cooling system: Air-cooled

Performance

  • Power output: 435 hp (325 kW) at 1,575 rpm maximum continuous power; 580 hp (430 kW) at 1,950 rpm takeoff power
  • Specific power: 0.33 hp/in³ (15.0 kW/L)
  • Compression ratio: 5:1
  • Power-to-weight ratio: 0.60 hp/lb (0.98 kW/kg)

See Also

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Sources of Information