Space Analog Survey: Review of Existing and New Proposal of Space Habitats with Earth Applications

dc.creatorSchlacht, Irene Lia
dc.creatorFoing, Bernard
dc.creatorBannova, Olga
dc.creatorBlok, Frans
dc.creatorMangeot, Alexandre
dc.creatorNebergall, Kent
dc.creatorOno, Ayako
dc.creatorSchubert, Daniel
dc.creatorKołodziejczyk, Agata Maria
dc.descriptionUnited States
dc.descriptionPolitecnico di Milano / Karlsruhe Institute of Technology
dc.descriptionUniversity of Houston
dc.descriptionUniversity of Orleans,
dc.descriptionDay Five, LLC
dc.descriptionTohoku University Graduate School of Medicine
dc.descriptionDeutsches Zentrum fur Luft- und Raumfahrt e.V. (DLR)
dc.descriptionESA ESTEC
dc.descriptionICES502: Space Architecture
dc.descriptionVienna, Austria
dc.descriptionDr. Irene Lia Schlacht, Politecnico di Milano / Karlsruhe Institute of Technology, Germany
dc.descriptionProf. Bernard Foing, Universiteit Amsterdam, The Netherlands
dc.descriptionProf. Olga Bannova, University of Houston, USA
dc.descriptionM.Sc. Frans Blok, 3Develop, The Netherlands
dc.descriptionDr. Alexandre Mangeot, University of Orleans, France
dc.descriptionM.Sc. Kent Nebergall, Day Five, LLC, The Netherlands
dc.descriptionDr. Ayako Ono, Japan Mars Society, Japan
dc.descriptionDipl. –Ing. Daniel Schubert, Institute of Space Systems, German Aerospace Center (DLR)
dc.descriptionAgata Maria Kolodziejczyk, ESA/ESTEC, The Netherlands
dc.descriptionThe 46th International Conference on Environmental Systems was held in Vienna, Austria, USA on 10 July 2016 through 14 July 2016.
dc.description.abstractAll human habitat problems fall into three major categories – the environment, the habitat itself, and the occupants. By breaking these problems down into common themes and addressing them directly, we can build a common knowledge base for all three challenges faced by humanity. A crew living in space has the new problems of coping with radiation, microgravity, and vacuum. Meanwhile, they are dealing with the usual issues of eating, sleeping, and getting along with the rest of the occupants. By isolating the differences between space and earth habitats, we can create common architectural approaches for each human habitat challenge where commonality is appropriate. We can then examine the differences, and finally isolate and modularize the secondary systems where possible. This simplifies experimentation and testing of the physical and psychological design of a structure on Earth prior to attempting to use it in space. It also allows spin-off architectures for extreme environments, off-grid settlements, research bases, and low-impact communities on Earth with applications for self-sustainable building. This paper will show numerous examples of architectures designed for space or space-analog research bases. These designs can be both descoped to off-grid sustainable architecture, and scoped up for space habitat applications. Concepts such as internal greenhouses, enclosed permaculture, thermal protection, energy management, and radiation shielding are included for both minimal habitats and large bases. These systems can be applied for disaster first responders, research bases in extreme environments, off-grid homes, and low-impact communities. Examples of these applications are also presented in this paper with a series of projects developed by the authors.
dc.publisher46th International Conference on Environmental Systems
dc.subjectSpace Architecture
dc.subjectClosed Loop
dc.subjectHuman Factors
dc.titleSpace Analog Survey: Review of Existing and New Proposal of Space Habitats with Earth Applications


Original bundle

Now showing 1 - 1 of 1
Thumbnail Image
1.85 MB
Adobe Portable Document Format