Difference between revisions of "Inflatable habitat"

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*Although an inflatable has packing volume advantages, this may not be significant for habitats built on Mars from In-situ resources.
 
*Although an inflatable has packing volume advantages, this may not be significant for habitats built on Mars from In-situ resources.
 
*Fabrics may be susceptible to fatigue.
 
*Fabrics may be susceptible to fatigue.
*An inflatable habitat is likely to have a rounded roof, which makes stacking sandbags (for radiation protection) on it problematic.  However, pressure vessels are almost always rounded for structural reasons, so this might also be applicable to rigid habitats.  
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*If the radiation protection is in the form of sandbags, an inflatable habitat is more likely to collapse.
  
 
==Example==
 
==Example==

Revision as of 08:58, 13 November 2024

Surface habitats used to create a settlement could be inflatable like NASA's transhab project. The modules would be unfolded, inflated, connected together and covered with regolith. The insides of the habitats would then be outfitted.

Benefits

Inflatable habitats offer the most benefit to initial settlements and outposts which require buildings shipped from Earth. They offer greater space than rigid habitats of the same initial volume.

An Earth atmosphere pressurized inflatable habitat has an internal pressure of 5 to 10 tonnes per m2 (50 to 100 kPa). Density of regolith is about 1500 kg/m3, this corresponds to 525 kg of soil pressure per m2 at Mars gravity. So the habitat can support up to 19m of regolith. Studies have shown than a single meter of regolith may be sufficient for radiation protection for both solar storms and GCRs.[1]. So an inflatable habitat may well be buried for radiation protection.

Disadvantages

  • An inflatable may be more prone to catastrophic collapse in case of structural failure, or leaks.
  • An inflatable might be more easily damaged by fire, and materials might be more inherently flammable.
  • Although an inflatable has packing volume advantages, this may not be significant for habitats built on Mars from In-situ resources.
  • Fabrics may be susceptible to fatigue.
  • If the radiation protection is in the form of sandbags, an inflatable habitat is more likely to collapse.

Example

A simple inflatable habitat for a Martian settlement, 8m x 20m. The structure is extended then the volume is inflated. Once the module is stable, it can be buried under regolith for radiation protection. There are two floors for a total volume of about 1000m3 and a typical floor space of 240 m2. This design could house eight occupants.

An early Settlement made from inflatable modules and landed SpaceX Starships. Propellant production equipment is in the foreground.

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References