DLR Tests New Sharp-Edged Spacecraft
Bonn, Germany (SPX) May 13, 2010 Re-entry into Earth's atmosphere is considered one of the most critical moments in spaceflight. To make the journey into space and back to Earth safer, cheaper and more flexible, the German Aerospace Center has designed an experimental spacecraft. The Shefex II project uses advanced technologies such as a sharp, angular design and active cooling of the heat shield. For the first time, scientists have tested a model of the spacecraft in a wind tunnel at Gottingen. In early 2011, Shefex II (SHarp Edge Flight EXperiment) is scheduled to lift off from the Australian testing ground at Woomera. This is in many ways a unique spacecraft. Building on the successful Shefex I flight, and unlike previous space vehicles, the outer skin is not rounded, but has sharp edges. Shefex II will test a system for active cooling of the heat shield for the first time in space. It is the only spacecraft project to be financed and run entirely by Germany and has the capability of returning to Earth under automatic control.
Re-entry at 12,000 kilometres per hour In a wind tunnel that is 62 metres long, a piston first compresses propellant gas. After a steel diaphragm bursts, a powerful shock wave compresses and heats a test gas before it is accelerated into the wind tunnel at 10 times the speed of sound. That equates to a speed in excess of 12,000 kilometres per hour. This gas then flows around the Shefex II model. This simulates the re-entry of a spacecraft into Earth's atmosphere from an altitude of roughly 35 kilometres. "At this point, the test device is experiencing temperatures of approximately 5000 degrees Celsius - as hot as the surface of the Sun," says Dr Klaus Hannemann, who is in charge of the Spacecraft Department at the DLR Institute of Aerodynamics and Flow Technology in Gottingen. The sharp-edged shape of Shefex promises two substantial benefits. Firstly, this could make heat shield design much simpler and safer. "A Space Shuttle has more than 25,000 differently-shaped tiles. The simple shape of the Shefex tiles reduces the maintenance costs of the thermal protection system and means that in-space replacement becomes feasible," says Dr Hannemann. Furthermore, this multi-faceted shape results in improved aerodynamic properties. "The capsule almost achieves the same aerodynamic properties as a Space Shuttle, but is smaller and does not need to have wings," says Project Manager Hendrik Weihs from the DLR Institute of Structures and Design in Stuttgart. In conjunction with the active cooling system, this opens up new vistas for European space travel. "We could use a landing site in Germany, to which the capsule could return with pinpoint accuracy," explains Weihs.
Cooling protective layer "Germany is assuming a pioneering role in relation to advanced re-entry systems," states Weihs as he explains the national Shefex programme. He hopes that the programme will eventually lead to a European spaceflight system, possibly even a manned one. Shefex II on launch vehicle The goal of the Shefex programme is to test the most cost effective re-entry technology in a flight experiment. To perform the test, the capsule is placed on top of a low-cost sounding rocket. Shefex I was launched in 2005 from northern Sweden. With a height of 12.6 metres, Shefex II will be launched on a Brazilian rocket to achieve a higher velocity. Moreover, in contrast to its predecessor, Shefex II has small wings known as canards, which enable the craft to be manoeuvred. From Woomera, Shefex II should reach an altitude of 200 kilometres. For the researchers, the interesting part begins when it re-enters the Earth's atmosphere. Then the capsule will land in the desert using a parachute.
DLR locations throughout Germany involved The Cologne site is responsible for payload instrumentation. The Shefex II experiment itself is being developed, manufactured and integrated by the DLR Institute of Structures and Design in Stuttgart. The deployment of the launcher and the launch operations are being handled by DLR's Mobile Rocket Base (MObile RAketenBAsis; MORABA), which is based in Oberpfaffenhofen. The new DLR Space Institute in Bremen is involved, contributing a navigation experiment to the project.
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