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| | Posted by admin on Friday, March 24, 2006 - 08:16 AM |
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|  | A new jet engine design able to fly seven times the speed of sound is scheduled to launch over Australia on Friday.
Jonathan Fildes
BBC News science and technology reporter
The launch will be the third for the Hyshot consortium
The scramjet engine, known as Hyshot III, has been designed by British defence firm Qinetiq.
If successful, it could pave the way for ultrafast,
intercontinental air travel, and substantially cut the cost of putting
small payloads into space.
The engine will launch on a rocket owned by the University of Queensland.
It is the first of three test flights planned for this year by the international Hyshot consortium.
The first Hyshot engine was launched in 2001 but the test flight failed when the rocket carrying the engine flew off course.
Simple engines
A supersonic combustion ramjet, or scramjet, is
mechanically very simple. It has no moving parts and takes all of the
oxygen it needs to burn hydrogen fuel from the air.
This makes it more efficient than conventional rocket
engines as they do not need to carry their own oxygen supply, meaning
that any vehicle could potentially carry a larger payload.
However scramjets do not begin to work until they reach five times the speed of sound.
You're dealing with extremes of conditions. You've got to expect things to go wrong
Dr Allan Paull, University of Queensland
At this speed the air passing through the engine is compressed and hot
enough for ignition to occur. Rapid expansion of the exhaust gases
creates the forward thrust.
To reach the critical speed, Hyshot III will be strapped
to the front of a conventional rocket and blasted to an altitude of
330km before being allowed to plummet back to Earth.
On its descent the engine is expected to reach a top speed of Mach 7.6 or over 9,000km/ hour.
Making sure the flight happens correctly is incredibly
difficult, according to Dr Allan Paull, project leader of the Hyshot
programme at the University of Queensland.
"You are dealing with extremes of conditions. You're
working out on the edge and with a lot of the stuff no-one has ever
tried before," he told the BBC News website. "You've got to expect
things to go wrong".
If everything goes to plan, the experiment will begin at
a height of 35km. As the engine continues its downward path the fuel in
the scramjet is expected to automatically ignite.
The scientists will then have just six seconds to
monitor its performance before the £1m engine eventually crashes into
the ground.
New design
The scramjet will not provide forward thrust during the
flight, necessary if the engine is ever to power a vehicle. But the
test will be enough to show that burning starts automatically and to
verify trials already done in a wind tunnel.
Nasa's X-43A holds the current speed record
"The wind tunnels operate for milliseconds," Dr Paull
explained. "The difficulty is whether or not you can even see the
supersonic combustion in this period of time."
Although the Qinetiq engine has never left the ground it is more realistic than previous Hyshot experiments.
It has a more efficient air intake on the front and can
operate over a greater range of speeds. It also scoops air into the
combustion chamber at a lower temperature, closer to that needed in a
commercially useful engine.
If the test flight is successful, it will be followed
four days later by the test flight of another Hyshot engine designed by
the Japanese Aerospace Exploration Agency (Jaxa). This will be followed
in June by the launch of an engine that will fly at Mach 10, designed
by the Australian Defence Science and Technology Organisation (DSTO).
Commercial reality
The Hyshot tests will bring the idea of a commercial scramjet one step closer to reality.
In the first instance these would probably be used to
launch satellites into low earth orbit but many have speculated that
they could also allow passenger airlines to fly between London and
Sydney in just 2 hours.
Although this vision maybe many years off, it was given
a huge boost when Nasa successfully flew its X-43A plane over the
Pacific Ocean in 2004. The unmanned aircraft flew at 10 times the speed
of sound, a new world speed record.
The team at the University of Queensland is also currently designing a vehicle that can fly under its own power.
If the plane works, it could be flying over the Australian desert within the next two years.
SCRAMJET ENGINE TEST
1. Two-stage rocket lifts the scramjet engine to altitude of 330km
2. Rocket free-falls back to Earth, reaching speeds of Mach 8
3. Experiment takes place at Mach 7.6 between 35-23km from ground and lasts 6 seconds
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