- Bristol 188
Infobox Aircraft
name=Bristol 188
type=Experimental aircraft
manufacturer=Bristol Aeroplane Company
caption=Bristol 188 at theRAF Museum , Cosford.
designer=
first flight=14 April 1962
introduced=
retired=1964
status=Experimental
primary user=Royal Air Force
more users=
produced=
number built=2
unit cost=
variants with their own articles=The Bristol 188 was a British
supersonic researchaircraft built by theBristol Aeroplane Company in the 1950s. Its length, slender cross-section and intended purpose led to its being nicknamed the "Flaming Pencil" [http://glostransporthistory.visit-gloucestershire.co.uk/JetAgeRMCbristol.htm Bristol Aircraft] "Gloucestershire Transport History". Retrieved:5 January 2008 .] .Design and development
The aircraft had its genesis in the OR.330 contract for a high-speed
reconnaissance aircraft, which eventually developed into theAvro 730 . As the 730 was expected to operate at high speeds for extended periods of time, more data was needed on high-speed operations, leading to Operational Requirement ER.134T for a testbed capable of speeds greater than Mach 2. The aircraft was expected to run at these speeds for extended periods of time, allowing it to study kinetic heating effects on such an aircraft.Several firms took interest in this very advanced specification and the eventual contract (6/Acft/10144) was awarded to Bristol Aircraft in February 1953.
Bristol gave the project the type number 188, of which three aircraft were to be built, one a pure test bed and the other two (constructor numbers "13518" and "13519") for flight testing. Under contract number KC/2M/04/CB.42(b)
serial number s "XF923" and "XF926" were given on4 January 1954 to the two that would fly. To support the development of theAvro 730 Mach 2 reconnaissance bomber, another three aircraft were ordered (Serial Numbers "XK429", "XK434" and "XK436"). The order was cancelled when the Avro 730 programme was cancelled in 1957 as part of the review of defence spending.The advanced nature of the aircraft meant that 12%chromium stainless steel with a honeycomb centre was used for the construction of the outer skin, to which no paint was applied, but problems with the newArgon arc welding technique known as puddle welding caused long delays and was less than satisfactory. The W. G. Armstrong Whitworth company gave much technical help and support to Bristol during this period.A
quartz -lined windscreen and canopy andcockpit refrigeration system were designed and fitted but were never tested in the environment for which they had been designed.Rolls-Royce engines were at first selected to power the 188, but five engine combinations were evaluated: two with
Rolls Royce Avon 200s, two with thede Havilland Gyron Junior and one with an AJ.65, the latter disintegrating on test. But the final choice for the 188 were two 10,000 lbf (44 kN)thrust Gyron Junior DGJ10Rs developing 14,000 lbf (62 kN) of thrust on reheat at sea level and 20,000 lbf (89 kN) at Mach 2 at 36,000 ft (11 km). Unfortunately this choice of powerplant resulted in the 188 having an endurance of only 25 minutes, which was too little time for any serious high speed research. Test pilot Godfrey Auty reported that while the 188 transitioned smoothly from subsonic to supersonic flight, the Gyron Junior engines were prone to surging beyond that speed, causing the aircraft to pitch and yaw.Testing and evaluation
Farnborough in May 1960 saw the first aircraft delivered for structural tests before moving on to
RAE Bedford . XF923 undertook the firsttaxiing trials on26 April 1961 but the first flight was not until14 April 1962 due to problems encountered. "XF926" had its first flight on26 April 1963 managing to reach a speed of Mach 1.88 (2,300 km/h) at 36,000 ft (11 km). The longest subsonic Bristol 188 flight was only 48 minutes in length, requiring 70% of the fuel load to be expended to attain its operational altitude. The project suffered a number of problems; the main being - as mentioned above - that the fuel consumption of the engines didn't allow the aircraft to fly at high speeds long enough to evaluate the "thermal soaking" of the airframe, which was one of the main research areas it was built to investigate. Also, thetakeoff speed was nearly convert|300|mi/h|km/h|abbr=on. Though it was eventually abandoned, the knowledge and technical information gained was put to some use for the futureConcorde program. The inconclusive nature of the research into the use of stainless steel led to Concorde's being constructed from conventionalaluminium alloys with a Mach limit of 2.2.Experience gained with the Gyron Junior engine, which was the first British gas turbine designed for sustained supersonic operation, later assisted with the development of the Bristol (later Rolls Royce) Olympus 593 powerplant which was used on both Concorde and the
BAC TSR-2 .In total the project cost £20 million Winchester 2005, p. 198.] . Various proposals to develop the 188 were considered including:
ramjet s, rockets, a fighter and reconnaissance variants. One serious proposal involved the fitting of "wedge" type intakes, but all development was terminated in 1964, the last flight of XF926 taking place on12 January 1964 .urvivors
In April 1966 both 188 fuselages were transported to the Proof and Experimental Establishment at
Shoeburyness , Essex to act as targets for gunnery trials, but during 1972 XF926 was dismantled and moved to RAF Cosford (minus engines) to act as instructional airframe 8368M, and is preserved at theRAF Museum , Cosford nearWolverhampton . XF923 was subsequently scrapped atFoulness .Operators
;UK
*Royal Air Force pecifications (Bristol 188)
aircraft specifications
plane or copter?=plane
jet or prop?=jet
ref=
crew=1
length main=77 ft 8 in
length alt=23.67 m
span main=35 ft 1 in
span alt=10.69 m
height main=12 ft
height alt=3.65 m
area main=
area alt=
empty weight main=
empty weight alt=
loaded weight main=
loaded weight alt=
max takeoff weight main=
max takeoff weight alt=
engine (jet)=de Havilland Gyron Junior PS.50
type of jet=turbojet (afterburning)
number of jets=2
thrust main=14,000 lbf
thrust alt=62.28 kN
max speed main=Mach 1.88
max speed alt= a "dash speed" of Mach 2 could only be maintained for a few minutes
range main=
range alt
ceiling main=
ceiling alt=
climb rate main=
climb rate alt=
loading main=
loading alt=
thrust/weight=
avionics=References
Notes
Bibliography
* Winchester, Jim. "The World's Worst Aircraft: From Pioneering Failures to Multimillion Dollar Disasters". London: Amber Books Ltd., 2005. ISBN 1-904687-34-2.
External links
* [http://www.skomer.u-net.com/projects/b188.htm Bristol Type 188 (ER.134)8]
* [http://www.rafmuseum.org.uk/bristol-type-188.htm Royal Air Force Museum Bristol Type 188]
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