The Memorandum of Understanding signed on January 16 is part of the implementation of the Polish Space Strategy. It assumes, among others, improving the competences of specialists in the space sector The Memorandum of Understanding signed on January 16 is part of the implementation of the Polish Space Strategy. It assumes, among others, improving the competences of specialists in the space sector and cooperation in the research and scientific field.[+]
SENER participates in the design of a mechanism for capturing space debris22/02/2017 (Poland)
The SENER engineering and technology group is taking part in the e.Deorbit mission, part of the ESA’s (European Space Agency) ‘Clean Space’ initiative, aimed at capturing space debris.
Envisat is an Earth observation satellite built by the ESA. Weighing 8.2 tons and measuring 25 meters long, it is the heaviest unmanned civil satellite. To date, two preliminary studies have been completed as part of phase B1 of the e.Deorbit mission for the removal of space debris. One of these was led by the company ADS Bremen, with whom SENER in Poland have been working on the conceptual development of a clamping mechanism for the rigid capture and deorbiting of the satellite.
The team of engineers at SENER in Poland is designing one of the two mechanisms to grab the satellite – a robotic arm that will be used to bring Envisat closer and capture it for its destruction. The mission will send both satellites into the Earth’s atmosphere, where they will disintegrate.
Aleksandra Bukala, Country Manager for SENER in Poland, pointed out that “Capturing Envisat is a challenging task. The satellite’s mass is over eight tons and it is constantly rotating. The ‘hunter satellite’ is six times smaller, so our mechanism has to be very strong, with the capacity to capture debris at angles that are very hard to predict.”
In contrast to solutions designed previously to ensure the success of individual scientific missions, this unit created by SENER engineers also represents a commercial opportunity. If it fulfills expectations, it may succeed in being standardized and used in future missions aimed at the removal of space debris.
SENER in Poland’s involvement in this study, which is currently in its maturation phase, sets it up to bid on the subsequent development phases of the clamping mechanism.
About space debris
It is estimated there are tens of thousands of objects larger than 10 cm orbiting the Earth, and that they can threaten the safety of both manned and unmanned space missions. The majority of these objects are small sized, but there are also some that are larger, such as inactive satellites and the upper parts of launchers. This is why space agencies have recently decided to tackle the problem of space debris in orbit. In order to solve these issues, all new ESA satellites must have deorbiting systems or systems that guide them into a ‘graveyard orbit’.
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