Research Grant
[Cite as https://purl.org/au-research/grants/arc/DE170100263]Researchers: Dr David Gildfind (Discovery Early Career Researcher Award) , Dr David Gildfind (Discovery Early Career Researcher Award)
Brief description Magnetohydrodynamic aerobraking to land heavy payloads on Mars. This project aims to decelerate space vehicles by applying a magnetic field to the hot ionised gases that form around the vehicle. In the thin atmosphere of Mars, aerodynamic drag alone is not enough to land a spacecraft larger than 1 tonne. A human mission to Mars requires landing of payloads up to 80 tonnes. Interaction of the magnetic field with the ionised flow dissipates kinetic energy and can reduce surface heating. This project could make Mars-return missions feasible by enabling greatly increased payloads. It also aims to evaluate magnetohydrodynamic braking and heat mitigation at true flight conditions.
Funding Amount $360,000
Funding Scheme Discovery Early Career Researcher Award
- PURL : https://purl.org/au-research/grants/arc/DE170100263
- ARC : DE170100263