The EDEN ISS Rack-Like Plant Growth Facility

Italy Germany Thales Alenia Space Italia Thales Alenia Space - Italia DLR 204 ICES204: Bioregenerative Life Support Vienna, Austria Giorgio Boscheri, Thales Alenia Space, Italy Vincenzo Guarnieri, Thales Alenia Space, Italy Ilaria Locantore, Thales Alenia Space, Italy Matteo Lamantea, Thales Alenia...

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Bibliographic Details
Main Authors: Boscheri, Giorgio, Lobascio, Cesare, Lamantea, Matteo Maria, Locantore, Ilaria, Guarnieri, Vincenzo, Schubert, Daniel
Format: Conference Object
Language:English
Published: 46th International Conference on Environmental Systems 2016
Subjects:
EDR
Online Access:http://hdl.handle.net/2346/67681
Description
Summary:Italy Germany Thales Alenia Space Italia Thales Alenia Space - Italia DLR 204 ICES204: Bioregenerative Life Support Vienna, Austria Giorgio Boscheri, Thales Alenia Space, Italy Vincenzo Guarnieri, Thales Alenia Space, Italy Ilaria Locantore, Thales Alenia Space, Italy Matteo Lamantea, Thales Alenia Space, Italy Cesare. Lobascio, Thales Alenia Space, Italy Christian Iacopini, Thales Alenia Space, Italy Daniel Schubert, German Aerospace Center (DLR), Germany The 46th International Conference on Environmental Systems was held in Vienna, Austria, USA on 10 July 2016 through 14 July 2016. Plant cultivation in large-scale closed environments is challenging and several key technologies necessary for space-based plant production are not yet space-qualified or remain in early stages of development. The Horizon2020 EDEN ISS project aims at development and demonstration of higher plant cultivation technologies, suitable for near term deployment on the International Space Station (ISS) and from a long-term perspective, within Moon and Mars habitats. The EDEN ISS consortium, as part of the performed activities, has designed a plant cultivation system to have form, fit and function of an European Drawer Rack 2 (EDR II) payload, with a modularity that would allow its incremental installation in the ISS homonimous rack, occupying from one-quarter rack to the full system. The construction phase is started, and the developed system will be tested in a laboratory environment as well as at the highly-isolated German Antarctic Neumayer Station III, in a container-sized test facility to provide realistic mass flow relationships and interaction with a crewed environment. This paper describes the goals and system general design status of EDEN ISS ISPR plant growth facility.