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| Title : | Luna Gaia : a closed-loop habitat for the moon | | Material Type: | ISU Team Project reports | | Publisher: | International Space University | | Publication Date: | 2006 | | Pagination: | ix, 142 p. | | Layout: | ill. | | Size: | 29 cm | | General note: | Includes bibliographical references | | Languages : | English (eng) | | Descriptors: | Moon--Exploration
| | Class number: | TL799.M6 | | Abstract: | The Luna Gaia posits a pathway towards new technologies, philosophies, systems applications and infrastructure aimed at achieving a closed loop habitat model for human settlement on the Moon. Luna Gaia design solutions focus on the coupling power for all regenerative processes of a network of closed loop life support. Using proven and innovative solutions that produce relatively independent and highly reliable cycles of oxygen, water, energy, food growth and waste processing, the modular, hybrid bioregenerative network of systems particular to the Luna Gaia design architecture is ambitious but feasible.
Thie report also details ethical and philosophical considerations of lunar settlement and the wider implications for international law, policy and future interplanetary social governance. | | Host institution : | International Space University, Strasbourg | | Host country : | France | | ISU program : | Space Studies Program | | Record link: | http://isulibrary.isunet.edu/opac/index.php?lvl=notice_display&id=6696 |
Luna Gaia : a closed-loop habitat for the moon [ISU Team Project reports] . - [S.l.] : International Space University, 2006 . - ix, 142 p. : ill. ; 29 cm. Includes bibliographical references Languages : English ( eng) | Descriptors: | Moon--Exploration
| | Class number: | TL799.M6 | | Abstract: | The Luna Gaia posits a pathway towards new technologies, philosophies, systems applications and infrastructure aimed at achieving a closed loop habitat model for human settlement on the Moon. Luna Gaia design solutions focus on the coupling power for all regenerative processes of a network of closed loop life support. Using proven and innovative solutions that produce relatively independent and highly reliable cycles of oxygen, water, energy, food growth and waste processing, the modular, hybrid bioregenerative network of systems particular to the Luna Gaia design architecture is ambitious but feasible.
Thie report also details ethical and philosophical considerations of lunar settlement and the wider implications for international law, policy and future interplanetary social governance. | | Host institution : | International Space University, Strasbourg | | Host country : | France | | ISU program : | Space Studies Program | | Record link: | http://isulibrary.isunet.edu/opac/index.php?lvl=notice_display&id=6696 |
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Luna Gaia / International Space University (2006)
