TransHab

A cut away view of a TransHab concept.

TransHab was a concept pursued by NASA in the 1990s to develop the technology for expandable habitats inflated by air in space. Specifically, TransHab was intended as a replacement for the already existing rigid International Space Station crew Habitation Module. When deflated, inflatable modules provide an 'easier to launch' compact form. When fully inflated, TransHab would expand to 8.2 meters in diameter (compare to the 4.4 meter diameter of the Columbus ISS Module).[1]

History

The name of the project is a contraction of Transit Habitat reflecting the original intention to design an interplanetary vehicle to transfer humans to Mars.[2]

Considerable controversy arose during the TransHab development effort due to delays and increased costs of the ISS program. In 1999, the National Space Society issued a policy statement recommending that NASA continue R&D of inflatable technologies while ceasing development of a TransHab ISS module.[3] Finally in 2000, despite objections from the White House,[4] House Resolution 1654 was signed into law banning NASA from conducting further research and development of TransHab. An option to lease an inflatable habitat module from private industry was included in the bill.[5][6][7]

Since that time, the private company Bigelow Aerospace has purchased the rights to the patents developed by NASA and is pursuing a similar scheme for a private space station design.[8] The company has launched the Genesis I and Genesis II pathfinder spacecraft, with plans for additional experimental craft culminating in their BA 330 production model and the Bigelow Commercial Space Station.[9]

Technology

Cut-away view of the TransHab multi-layer, space debris and micrometeroid ballistic-shield.[10]

The TransHab design called for a hybrid structure that combines the packaging and mass efficiencies of an inflatable structure with the advantages of a load-bearing hard structure.[1]

Multi-Layer Inflatable Shell

TransHab's inflatable shell consisted of multiple layers of blanket insulation, protection from orbital and meteoroid debris, an optimized restraint layer and a redundant bladder with a protective layer.[1]

TransHab's foot-thick inflatable shell design had almost two dozen layers. The layers were fashioned to break up particles of space debris and tiny meteorites that might hit the shell with a speed seven times as fast as a bullet. The outer layers protect multiple inner bladders, made of a material that holds in the module’s air. The shell also provides insulation from temperatures in space that can range from plus 121 degrees Celsius (plus 250 degrees Fahrenheit) in the Sun to minus 128 degrees Celsius (minus 200 degrees Fahrenheit) in the shade.[1]

The key to the debris protection in the design and prototype units was successive layers of Nextel,[11] a material commonly used as insulation under the hoods of many cars, spaced between several-inches-thick layers of open cell foam, similar to foam used for chair cushions on Earth. The Nextel and foam layers cause a particle to shatter as it hits, losing more and more of its energy as it penetrates deeper.[1]

Many layers deep in the shell was a layer of superstrong woven Kevlar to hold the module’s shape. The air was held inside by three bladders of Combitherm,[12] a material commonly used in the food-packing industry. The innermost layer, forming the inside wall of the module, was Nomex cloth, a fireproof material that also protected the bladder from scuffs and scratches.[1]

TransHab layout

Level 4 and 3
Level 2
Level 1

TransHab was intended to be composed of four levels/floors.[13]

Level 4
The Pressurized Tunnel Area was intended to provide a passageway between TransHab and any vehicle to which it is attached. The original tunnel design had two standard International Space Station hatches and housed critical equipment required during module expansion, such as avionics and power equipment.[13]
Level 3
Level Three was to house an exercise area with a treadmill and stationary bicycle. The design also contained a complete health care system with all types of medical and emergency equipment and a type of "space bath" area provided for body cleansing. In addition, this level contained a soft stowage area identical to level one.
Crew Health Care Area -- The design for the crew health care area incorporateed two ISS Crew Health Care System racks, a Full Body Cleansing Compartment, changing area, exercise equipment (treadmill and ergometer), a partitionable area for private medical exams and conferencing, as well as an Earth-viewing window. The Earth-viewing window was to have been 51 centimeters (20 inches) in diameter and was located near the exercise area. The window design had four panes totaling 10.2 centimeters (4 inches) thick and a hard frame around each window that attaches to all layers of the shell.
Stowage -- Soft-sided cabinets was to have provided stowage for spare parts, supplies, clothing and other equipment. If built, TransHab would have doubled the stowage room available on the International Space Station.[13]
Level 2
Crew Quarters -- The crew quarters area design had six individual crew quarters, sized at 2.3 cubic meters (81 cubic feet) of volume per crew quarter, and a central passageway located within the second level central core structure and water tanks. Each compartment contains a sleeping bag/sleep restraint, an area for stowing personal items, and a computer entertainment center for recreation and personal work.
Mechanical -- The mechanical room is external to the core structure and uses only half the floor space. It is acoustically and visually isolated. The other half of this area is a clerestory above the wardroom area. The mechanical room consists of an environmental control and life support system, power equipment and avionics equipment and provides return airflow from Level One and Level Three through openings.[13]
Level 1
The first level was to house a kitchen with a refrigerator-freezer, microwave oven, water dispenser, and food preparation equipment as well as a table that seats 12, enough to allow an entire Station resident crew and replacement crew to sit together for meetings or meals. There were to be three galley racks, a large wardroom table, a soft stowage array and an Earth-viewing window identical to the window on Level 3.[13]

See also

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 Kim Dismukes (curator) (2003-06-27). "TransHab Concept". NASA.gov. Retrieved 2007-06-10.
  2. Kennedy, Kriss (2002). "Lessons from TransHab: An Architect's Experience". AIAA Space Architecture Symposium. Houston, Texas. AIAA 2002-6105.
  3. "National Space Society Announces Policy on TransHab" (Press release). National Space Society (NSS.org). 1999-06-10. Retrieved 2007-06-10.
  4. White House (2000-10-30). "President signs H.R. 1654, the "National Aeronautics and Space Administration Authorization Act of 2000."" (Press release). Office of the Press Secretary via SpaceRef.com. Retrieved 2007-06-10.
  5. 106th Congress (2000-01-24). "National Aeronautics and Space Administration Authorization Act of 2000". Library of Congress. Retrieved 2007-05-26.
  6. Sensenbrenner, F James (2000-09-12). "National Aeronautics and Space Administration Authorization Act of 2000, Conference Report". Library of Congress. Retrieved 2007-06-10.
  7. Abbey, George W S (2001-02-27). "Letter from NASA JSC Center Director: Actions Required to Address ISS Budget Challenges". NASA via SpaceRef.com. Retrieved 2007-06-10.
  8. Schrimpsher, Dan (2006-08-21). "Interview: TransHab developer William Schneider". TheSpaceReview.com. Retrieved 2007-06-10.
  9. Bigelow Aerospace Shows Off Bigger, Badder Space Real Estate, Popular Mechanics, 2010-10-28, accessed 2010-10-30.
  10. International Space Station Imagery, image S99-05362, "Computer Generated Still -- Cutaway of the TransHab Module shell showing the various layers," 2001-08-30
  11. 3M Nextel Woven Ceramic Fabric
  12. DuPont, Surlyn-resin, Combitherm-film case study
  13. 13.0 13.1 13.2 13.3 13.4 "HSF -- Transhab". NASA. Retrieved 2010-02-09.

External links

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