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Study of Inflatable Devices to Employ Atmospheric Drag for Orbital Manoeuvres at Planetary Arrival

Closed

Closed

Prime contractor
Organisational Unit
Activity Type
Implementation progress
90%
21 July 2020

Duration: 10 months

Objective

Missions to Mars and Venus today, can make use of aerobraking to save  considerable amounts of fuel (e.g. Venus Express, Exomars TGO,  Envision). Manoeuvres in excess of several thousands of m/s can be  replaced by aerobraking to, after initial orbit insertion, allow probes  to achieve their final operational orbit around the planet. Currently  most spacecraft rely on the (relatively small) surface of the solar  arrays and the body to create the necessary drag to brake in the  atmosphere (e.g. VEX, Exomars TGO, EnVision). In Venus, in  particular, spacecraft is already subject to an aggressive thermal  environment and aerobraking relying on the structure exacerbates the  problem leading to potential damage Structural compromises are  required to achieve a natural aerodynamic stability of the spacecraft,  sometimes requiring active control, which consumes fuel Spacecraft  need to manage altitude carefully as the density of atmosphere changes  between consecutive passes due to Sun activity. As the orbits tighten  and period reduces, the operational turn around to determine location  and prepare the spacecraft for next pass are getting increasingly fast  and hard for Ground to sustain. Overall the full orbital change may last  from 6 months to 2 years during which time the probe performs no  science at all and risks failure. We propose a device in the  shape of an umbrella with a tube structure that is filled in with a  pressurizing gas to provide stiffness, similar to kites used for  surfing. The device is mounted on a boom away from the spacecraft body  to provide aerodynamic stability and ensure safety. The device may  increase the aerobraking operations period by a factor of 10: From a  couple of years to a couple of months thus allowing for more time for  Science. The idea could be subject to patenting - pending research for  similar concepts.

Contract number
4000131730
Programme
OSIP Idea Id
I-2019-02318
Related OSIP Campaign
Open Channel
Subcontractors
Eptune Engineering Lda. IST-ID - Associao do Instituto Superior Tcnico para a Investigao e Desenvolvimento
Main application area
Exploration
Budget
100000€
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