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In Supersonic speed, an unstart refers to a generally violent breakdown of the supersonic airflow. The phenomenon occurs when mass flow rate changes significantly within a duct. Avoiding unstarts is a key objective in the design of the engine air intakes of supersonic aircraft that cruise at speeds in excess of Mach 2.2.
In some contexts, the terms aerodynamic disturbance ( AD) and unstart have been synonymous.
Few aircraft, although many ramjet-powered missiles, have flown with intakes which have supersonic compression taking place inside the intake duct. These intakes, known as mixed-compression intakes, have advantages for aircraft that cruise at Mach 2.2 and higher. Most supersonic aircraft intakes compress the air externally, so do not start and hence have no unstart mode. Mixed compression intakes have the initial supersonic compression externally and the remainder inside the duct. As an example, the intakes on the North American XB-70 Valkyrie had an external compression ratio (cr) at Mach 3 of 3.5 and internal cr about 6.6,B-70 Aircraft Study Final Report Volume IV SD 72-SH-0003 April 1972, L.J.Taube, Space Division, North American Rockwell, p. IV-8 followed by subsonic diffusion. The Lockheed SR-71 Blackbird and XB-70 Valkyrie had well-publicised"SR-71 Revealed The Inside Story, Richard H. Graham 1996, Zenith Press, , pp. 56-60"Valkyrie" Jenkins & Landis 2004, Specialty Press, , pp.136-137,144 unstart behaviour. Other aircraft that have flown with internal compression include the Vought F-8 Crusader III, the SSM-N-9 Regulus II cruise missile"Jet Propulsion For Aerospace Applications" Second Edition, Hesse & Mumford 1964, Pitman Publishing Corporation, Library of Congress Catalog Number: 64-18757, pp.124-125 and the B-1 Lancer."Design for Air Combat" Ray Whitford 1987, Jane's Publishing company Limited, , p.132
Partial internal compression was considered for the Concorde (the Supersonic Transport Aircraft Committee, in 1959, had recommended an SST to cruise at Mach 2.2"Evolution Of The Airliner" Ray Whitford 2007, The Crowood Press, , p.172) but an "external configuration was chosen for the inherent stability of its shock system, it had no unstart mode"."Design and Development of an Air Intake for a Supersonic Transport Aircraft" Rettie & Lewis, Journal of Aircraft, Volume 5 November–December 1968 Number 6, p.514 Even though there was some internal compression terminated by a normal shock local to the ramp boundary layer bleed slot inside the intake,"Intake Aerodynamics" Second Edition 1999, Seddon and Goldsmith, AIAA Education Series, , p.299 the intake was aerodynamically self-compensating with no trace of any unstart problem. Early in the development of the B-1 Lancer its mixed external/internal intake was changed to an external one, technically safer but with a small compromise in cruise speed. It subsequently had fixed intakes to reduce complexity, weight and cost."Design for Air Combat" Ray Whitford 1987, Jane's Publishing company Limited, , p.119
Work in the 1940s, for example by Oswatitsch, showed that supersonic compression within a duct, known as a supersonic diffuser, becomes necessary at Mach 2 to 3 to increase the pressure recovery over that obtainable with external compression. As flight speed increases supersonically the shock system is initially external. For the SR-71 this was until about Mach 1.6 to Mach 1.8"Flying the SR-71 Blackbird" Col. Richard H. Graham, USAF(Retd.) 2008, Zenith Press, , p.170 and Mach 2 for the XB-70. The intake is said to be unstarted. Further increase in speed produces supersonic speeds inside the duct with a plane shock near the throat. The intake is said to be started. Upstream or downstream disturbances, such as gusts/atmospheric temperature gradients and engine airflow changes, both intentional and unintentional (from surging), tend to cause the shock to be expelled almost instantaneously. Expulsion of the shock, known as an unstart, causes all the supersonic compression to take place externally through a single plane shock. The intake has changed in a split second from its most efficient configuration with most of its supersonic compression taking place inside the duct to the least efficient as shown by the large loss in pressure recovery, from about 80% to about 20% at Mach 3 flight speeds. There is a large drop in intake pressure and loss in thrust together with temporary loss of control of the aircraft.
Not to be confused with an unstart, with its large loss in duct pressure, is the duct over-pressure resulting from a hammershock. (2017). 9780470754405, John Wiley & Sons, Ltd. ISBN 9780470754405
At speeds below the intake starting speed, or on aircraft with external compression intakes, engine surge or compressor stall can cause a hammershock. Above the intake starting speed, unstarts can cause stalls depending on the intake systems design complexity. Note that a hammershock can also occur with an external compression intake that has no unstart modes. Hammershocks have caused damage to intakes. For example, the North American F-107 during flight at high speed experienced an engine surge which bent the intake ramps. The Concorde, during development flight testing, experienced significant damage to one nacelle after both engines surged."Concorde A Designer's Life The Journey to Mach 2" Ted Talbot 2013, The History Press, . Plate 17-19
Thrust reduction on the XB-70 was achieved by keeping the engine flow stable at 100% rpm even with idle selected with the throttle. This was known as "rpm lock-up" and thrust was reduced by increasing the nozzle area. The compressor speed was maintained until the aircraft had slowed to Mach 1.5.
There are other ways of conceptualizing unstart which can be helpful. Unstart can be alternatively thought of in terms of a decreasing stagnation pressure inside of a supersonic duct; whereby the upstream stagnation pressure is greater than the downstream stagnation pressure. Unstart is also the result of a decreasing throat size in supersonic ducts. That is the entrance throat is larger than the diffusing throat. This change in throat size gives rise to the decreasing mass flow which defines unstart.
The choking reaction of unstart results in the formation of a shock wave inside of the duct.
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