EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS

This paper takes the EDEN ISS project as example to demonstrate how findings from greenhouse tests and a 12- month mission simulation in Antarctica can inform the design for a future lunar or Martian exploration greenhouse and presents design solutions. EDEN ISS, a four-year EU-H2020 project coordin...

Full description

Bibliographic Details
Main Authors: Imhof, Barbara, Schlacht, Irene Lia, Waclavicek, René, Schubert, Daniel, Zeidler, Conrad, Vrakking, Vincent, Hoheneder, Waltraut, Hogle, Molly
Format: Conference Object
Language:German
Published: 2018
Subjects:
Systemanalyse Raumsegment
Antarc*
Antarctic
Antarctica
Online Access:https://elib.dlr.de/132076/
https://elib.dlr.de/132076/1/IAC-18B3714x47710.pdf
id ftdlr:oai:elib.dlr.de:132076
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:132076 2024-05-19T07:32:05+00:00 EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS Imhof, Barbara Schlacht, Irene Lia Waclavicek, René Schubert, Daniel Zeidler, Conrad Vrakking, Vincent Hoheneder, Waltraut Hogle, Molly 2018-10 application/pdf https://elib.dlr.de/132076/ https://elib.dlr.de/132076/1/IAC-18B3714x47710.pdf de ger https://elib.dlr.de/132076/1/IAC-18B3714x47710.pdf Imhof, Barbara und Schlacht, Irene Lia und Waclavicek, René und Schubert, Daniel und Zeidler, Conrad und Vrakking, Vincent und Hoheneder, Waltraut und Hogle, Molly (2018) EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS. 69th International Astronautical Congress 2018, 2018-10, Bremen, Germany. Systemanalyse Raumsegment Konferenzbeitrag NonPeerReviewed 2018 ftdlr 2024-04-25T00:52:33Z This paper takes the EDEN ISS project as example to demonstrate how findings from greenhouse tests and a 12- month mission simulation in Antarctica can inform the design for a future lunar or Martian exploration greenhouse and presents design solutions. EDEN ISS, a four-year EU-H2020 project coordinated by the German Aerospace Center Bremen, is a Ground Demonstration of Plant Cultivation Technologies for Safe Food Production in Space. EDEN ISS project partners developed an advanced nutrient delivery system, a high-performance LED lighting system, a bio-detection and decontamination system and food quality and safety procedures and technologies. A mobile two-container-sized greenhouse test facility was built to demonstrate and validate different key technologies and procedures necessary for safe food production within a (semi-)closed system. EDEN ISS is currently installed next to the German Neumayer Station III in Antarctica and serves as an over-winter-test-bed for providing fresh vegetables to the crew's diet. Intermediate outcomes from the Antarctic test include engineering, technology and crew experience facts and will inform the extra-terrestrial greenhouse design. The paper outlines the current research and expedition status and references design concepts for exploration greenhouses which are relevant to the further development of EDEN ISS into a concept for future mission exploration on the moon and on Mars. The reference examples will serve as input to the concurrent design study planned for January 2019 where the team around DLR, Thales Alenia Space and LIQUIFER Systems Group will convene to finalise the EDEN ISS project from a future perspective point of view. They will look at integrating lessons learnt for architectural aspects, system performance, crop yield, crew acceptance and contamination. Concurrent engineering, used as methodology, will support the synthesis of the findings and at the same time will ensure the reflection of this information in the design proposals. Conference Object Antarc* Antarctic Antarctica German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language German
topic Systemanalyse Raumsegment
spellingShingle Systemanalyse Raumsegment
Imhof, Barbara
Schlacht, Irene Lia
Waclavicek, René
Schubert, Daniel
Zeidler, Conrad
Vrakking, Vincent
Hoheneder, Waltraut
Hogle, Molly
EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS
topic_facet Systemanalyse Raumsegment
description This paper takes the EDEN ISS project as example to demonstrate how findings from greenhouse tests and a 12- month mission simulation in Antarctica can inform the design for a future lunar or Martian exploration greenhouse and presents design solutions. EDEN ISS, a four-year EU-H2020 project coordinated by the German Aerospace Center Bremen, is a Ground Demonstration of Plant Cultivation Technologies for Safe Food Production in Space. EDEN ISS project partners developed an advanced nutrient delivery system, a high-performance LED lighting system, a bio-detection and decontamination system and food quality and safety procedures and technologies. A mobile two-container-sized greenhouse test facility was built to demonstrate and validate different key technologies and procedures necessary for safe food production within a (semi-)closed system. EDEN ISS is currently installed next to the German Neumayer Station III in Antarctica and serves as an over-winter-test-bed for providing fresh vegetables to the crew's diet. Intermediate outcomes from the Antarctic test include engineering, technology and crew experience facts and will inform the extra-terrestrial greenhouse design. The paper outlines the current research and expedition status and references design concepts for exploration greenhouses which are relevant to the further development of EDEN ISS into a concept for future mission exploration on the moon and on Mars. The reference examples will serve as input to the concurrent design study planned for January 2019 where the team around DLR, Thales Alenia Space and LIQUIFER Systems Group will convene to finalise the EDEN ISS project from a future perspective point of view. They will look at integrating lessons learnt for architectural aspects, system performance, crop yield, crew acceptance and contamination. Concurrent engineering, used as methodology, will support the synthesis of the findings and at the same time will ensure the reflection of this information in the design proposals.
format Conference Object
author Imhof, Barbara
Schlacht, Irene Lia
Waclavicek, René
Schubert, Daniel
Zeidler, Conrad
Vrakking, Vincent
Hoheneder, Waltraut
Hogle, Molly
author_facet Imhof, Barbara
Schlacht, Irene Lia
Waclavicek, René
Schubert, Daniel
Zeidler, Conrad
Vrakking, Vincent
Hoheneder, Waltraut
Hogle, Molly
author_sort Imhof, Barbara
title EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS
title_short EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS
title_full EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS
title_fullStr EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS
title_full_unstemmed EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS
title_sort eden iss: a simulation testbed to an advanced xploration design concept for a greenhouse for moon and mars
publishDate 2018
url https://elib.dlr.de/132076/
https://elib.dlr.de/132076/1/IAC-18B3714x47710.pdf
genre Antarc*
Antarctic
Antarctica
genre_facet Antarc*
Antarctic
Antarctica
op_relation https://elib.dlr.de/132076/1/IAC-18B3714x47710.pdf
Imhof, Barbara und Schlacht, Irene Lia und Waclavicek, René und Schubert, Daniel und Zeidler, Conrad und Vrakking, Vincent und Hoheneder, Waltraut und Hogle, Molly (2018) EDEN ISS: A SIMULATION TESTBED TO AN ADVANCED XPLORATION DESIGN CONCEPT FOR A GREENHOUSE FOR MOON AND MARS. 69th International Astronautical Congress 2018, 2018-10, Bremen, Germany.
_version_ 1799470037232254976

Similar Items