Bristol Mercury


The Bristol Mercury is a nine-cylinder, air-cooled, single-row, piston radial engine. Designed by Roy Fedden of the Bristol Aeroplane Company it was used to power both civil and military aircraft of the 1930s and 1940s. Developed from the earlier Jupiter engine, later variants could produce 800 horsepower from its capacity of 1,500 cubic inches by use of a geared supercharger.
Almost 21,000 engines were produced, with a number also being built in Europe under licence. At least three Bristol Mercuries remain airworthy in 2010, with other preserved examples on public display in aviation museums.

Design and development

The Mercury was developed by the Bristol Aeroplane Company in 1925 as their Bristol Jupiter was reaching the end of its lifespan. Although the Mercury initially failed to attract much interest, the Air Ministry eventually funded three prototypes and it became another winner for the designer Roy Fedden.
With the widespread introduction of superchargers to the aviation industry in order to improve altitude performance, Fedden felt it was reasonable to use a small amount of boost at all times in order to improve performance of an otherwise smaller engine. Instead of designing an entirely new block, the existing Jupiter parts were re-used with the stroke reduced by one inch. The smaller capacity engine was then boosted back to Jupiter power levels, while running at higher rpm and thus requiring a reduction gear for the propeller. The same techniques were applied to the original Jupiter-sized engine to produce the Pegasus.
The Mercury's smaller size was aimed at fighter use and it powered the Gloster Gauntlet and its successor, the Gloster Gladiator. It was intended that the larger Pegasus would be for bombers but as the power ratings of both engines rose, the Mercury found itself being used in almost all roles. Perhaps its most famous use was in a twin-engine light bomber, the Bristol Blenheim.
In 1938 Roy Fedden pressed the Air Ministry to import supplies of 100 octane aviation spirit from the USA. This new fuel would allow aero engines to run at higher compression ratios and supercharger boost pressure than the existing 87-octane fuel, thus increasing the power. The Mercury XV was one of the first British aero engines to be type-tested and cleared to use the 100-octane fuel in 1939. This engine was capable of running with a boost pressure of +9 lbs/sq.in and was first used in the Blenheim Mk IV.
The Mercury was also the first British aero engine to be approved for use with variable-pitch propellers.
The Bristol company and its shadow factories produced 20,700 examples of the engine.
Outside the United Kingdom, Mercury was licence-built in Poland and used in their PZL P.11 fighters. It was also built by NOHAB in Sweden and used in the Swedish Gloster Gladiator fighters and in the Saab 17 dive-bomber. In Italy, it was built by Alfa Romeo as the Mercurius. In Czechoslovakia it was built by Walter Engines. In Finland, it was built by Tampella and mainly used on Bristol Blenheim bombers.

Variants

Note:
;Mercury I
;Mercury II
;Mercury IIA
;Mercury III
;Mercury IIIA
;Mercury IV
;Mercury IVA
;Mercury IVS.2
;Mercury
;Mercury V
;Mercury VIS
;Mercury VISP
;Mercury VIS.2
;Mercury VIA
;Mercury VIIA
;Mercury VIII
;Mercury VIIIA
;Mercury VIIIA
;Mercury IX
;Mercury X
;Mercury XI
;Mercury XII
820 hp
;Mercury XV
;Mercury XVI
;Mercury XX
;Mercury 25
;Mercury 26
;Mercury 30
;Mercury 31

Applications

Note:
A Bristol Mercury powered Westland Lysander remains airworthy in 2017 at the Shuttleworth Collection, Old Warden, United Kingdom and is flown at home air displays throughout the summer months.
A second Bristol Mercury is airworthy as of 2017 at The Shuttleworth Collection, Old Warden powering the collection's Gloster Gladiator and is flown at home air displays throughout the summer months.
The Canadian Warplane Heritage Museum has a Lysander IIIA in flying condition as does the Vintage Wings of Canada.

Engines on display