Austere Human Missions to Mars

Concept for NASA human Mars mission. On the far left an independent ascent stage, on the right a surface stay habitat and Manned/Pressurized Mars rover

Austere Human Missions to Mars is a concept for a human mission to Mars by the United States space agency, NASA.[1] Released in 2009, it proposed a modified and even less costly version of Design Reference Architecture (DRA) 5.0, itself a combination of nearly 20 years of Mars planning design work.[1] The mission profile was for a conjunction class with a long surface stay, pre-deployed cargo, aerocapture and propulsive capture, and some in-situ resource production.[1] As of 2015, the concept has not yet been adapted to the Space Launch System that replaced NASA's Constellation program in 2011.

Key measures

Technologically and financially the concept remains conservative, with both peak yearly and total funding to be less than the ISS up to the first mission.[1] The plan would use standardized systems to launch a crew of 4 every four years, but accomplish the same major goals as DRA 5.0,[1] which included a crew of six.[2]

Scaled down from DRA 5.0 and its requirements, it claims to be still acceptable from a science and exploration standpoint.[3]

Simplifications and cost cutting are obtained mainly by avoiding high risk or high cost technology development and maximizing development and production commonality:[3]

Mission

Equipment

The mission comprises the following basic equipment:[3]

Procedures

A standardized liquid oxygen/liquid hydrogen (LOX/LH2) propulsive stage, like Ares V or its follower SLS Block II, would send the Descent/Ascent Vehicle (DAV), Mars Surface Habitat and Cargo elements to Mars orbit unmanned. The DAV would aerocapture into Mars orbit, preparing it for rendezvous with the manned Transit Habitat to arrive later. The Surface Habitat and Cargo would likely do direct entry.[1] One advantage of the combined Descent/Ascent Vehicle as the spacecraft used for the manned landing, is that it could perform an abort to orbit. A number of technologies for the descent stages were looked at, especially supersonic retro-propulsion for Mars atmospheric entry, but were otherwise very traditional with a large heat shield and retro rockets for final landing.[1]

Some concepts for the Surface Habitat include an inflatable structure and using the descent propellant tanks for waste storage.[1] Estimated Mass of the Surface Habitat in the study was 52 metric tons.[1] The Power/Logistics lander had the same predicted Mass (they would weigh less on Mars than on Earth).[1] The Power/Logistic module would contain 2 Pressurized Rovers,[1] with space for 2-Crew each. The pressurized rovers would be powered by a 5 kilowatt Stirling radioisotope generator on each rover.[1] The P/L module would also include 2 mobile generators for surface power, as well as additional consumables and science equipment.[1]

The surface habitat would have two 5 kilowatt radioisotope Stirling generators and an ISRU oxygen generator.[1] Unlike DRA 5.0 or Mars Direct however, In-situ resource utilization (ISRU) would not be used to produce propellent for the ascent into Mars orbit.[1][2]

After remote controlled deployment of this equipment on Mars, the Transit Habitat would carry the crew to the planet where it docks with the pre-sent MAV.[1] The MAV lands on the surface where the crew lives in the habitat supported by the power and logistics module.[1] After finishing their research they use the ascent vehicle to return to the Mars Transit Habitat,[1] see also Mars Orbit Rendezvous. It brings them back to earth orbit, from where they return to the surface with the CEV.

See also

References

  1. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 NASA - Austere Human Missions to Mars
  2. 1 2 Journal of Cosmology, 2010, Vol 12, 3578-3587
  3. 1 2 3 Austere Human Missions to Mars, Hoppy Price, Jet Propulsion Laboratory, Alisa M. Hawkins, Torrey O. Radcliffe, The Aerospace Corporation, September 2009, retrieved December 25, 2015

Further reading

External links

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