Nautilus-X

Source: Wikipedia, the free encyclopedia.
Nautilus-X
Nautilus-X spacecraft
OperatorNASA
ApplicationsMulti-mission crewed spacecraft[1]
Production
StatusConcept

Nautilus-X (Non-Atmospheric Universal Transport Intended for Lengthy United States Exploration) is a rotating wheel space station concept developed by engineers Mark Holderman and Edward Henderson of the Technology Applications Assessment Team of NASA.

The concept was first proposed in January, 2011 for long-duration (1 to 24 months) exo-atmospheric space journeys for a six-person crew. In order to limit the effects of microgravity on human health, the spacecraft would be equipped with a centrifuge.

The design was intended to be relatively inexpensive by crewed spaceflight standards,[2] as it was projected to only cost US$3.7 billion. In addition, it was suggested that it might only need 64 months of work.[3][4]

Objectives

The original goal of Nautilus-X was to be a stopover to long-term missions for the Moon or Mars. To ease route planning of the whole mission, the station would be placed at the Lagrange point L1 or L2 of the Moon or Mars, depending on which location is to be visited.

It would also have served as an emergency station and hospital for current mission crews.[1][3]

Other objectives included:

  • Self-sustained for long-duration missions with crews as large as 6.
  • Support crewed landing missions.
  • Satisfy requirements of NASA Authorization Act of 2010.

Description

Design

Nautilus-X Main module dimensions

The proposal notionally included a 21-by-46-foot (6.5 by 14 m) main corridor, a rotating habitable centrifuge, inflatable modules for logistical stores and crew use, solar power arrays, and a reconfigurable thrust structure.

The design was modular, enabling it to accommodate any of a number of mission specific propulsion modules, manipulator arms, docking port for an Orion or commercial crew capsule, and landing craft for destination worlds. In theory the engines and fuel could be swapped out depending on the mission.[5] The proposal also had an industrial slide-out airlock unit and a command, control and observation deck.

On the other end of the docking port would have been the spacecraft's centrifuge equipped with an external dynamic ring-flywheel. Behind the centrifuge would be water and slush hydrogen tanks, which could mitigate the dangers of cosmic radiation for the crew, to a certain degree.[2] In the aft of the craft are the communication and propulsion systems.

The standard version of Nautilus-X had only three inflatable modules. The Extended Duration Explorer variant on the Nautilus-X design concept would have several more, plus docking bays for science payloads and away-mission vehicles.

Nautilus-X Extended duration explorer
Nautilus-X Extended duration explorer - frontview

Technologies

Nautilus-X ISS demonstrator

In order to deploy this massive spacecraft as easily as possible, it would consist of a variety of rigid and inflatable modules and solar dynamic arrays. The expandable modules are based on the technology used by the inflatable living quarters proposed by Bigelow Aerospace,[5] which has continued the development of inflatable modules initially designed and developed by NASA.[6]

Attributes

  • Robust Environmental Control and Life Support and communication suite
  • Large storage volumes (for food, mechanical parts or medical supplies)
  • Real-time visual command and observe capability for crew
  • Low crew irradiation
  • Semi-autonomous integration of multiple mission specific propulsion units

Status as of 2011

The Nautilus-X design concept did not advance beyond the initial drawings and proposal.

ISS centrifuge demonstration

In order to assess and characterize influences and effects of the centrifuge relative to human reactions, mechanical dynamic responses and influences, the demonstration of a similar centrifuge first would be tested on the ISS.

If produced, this centrifuge would have been the first in-space demonstration of sufficient scale for artificial partial-g effects.[1] The demonstrator would be sent using a single Delta IV or Atlas V launcher. The full cost of such a demonstrator would be between US$83 million and US$143 million.

See also

References

  1. ^ a b c Mark Holderman and Edward Henderson of NASA Johnson Space Center (26 January 2011). "Nautilus-X Multi-Mission Space Exploration Vehicle". Retrieved 26 March 2011.
  2. ^ a b TopSpacer on hobbyspace.com (28 January 2011). "NASA NAUTILUS-X: multi-mission exploration vehicle includes centrifuge, which would be tested at ISS". Archived from the original on 19 April 2011. Retrieved 29 March 2011.
  3. ^ a b Max Eddy of Geekosystem.com (14 February 2011). "Nautilus-X spaceship could take us to Mars and beyond - Geekosystem". Retrieved 29 March 2011.
  4. ^ Boyle, Rebecca (2011-02-14). "New NASA Designs for a Reusable Manned Deep-Space Craft, Nautilus-X". Popular Science. Retrieved 2011-02-15. [as of 2011] Construction would take at least five years and require two or three rocket launches. It would cost about $3.7 billion.
  5. ^ a b John Messina (15 February 2011). "NASA's Nautilus-X: Reusage deep manned spacecraft". Retrieved 29 March 2011.
  6. ^ Kim Dismukes (curator) (2003-06-27). "TransHab Concept". NASA.gov. Archived from the original on 2006-06-27. Retrieved 2007-06-10.

External links