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Final Report for Creative 3D Plant Optimization (C3PO) SystemUtah State University (USU) and the University of Alabama’s (UA) X-Hab design project created a 3D printed substrate to facilitate plant growth in a microgravity environment. The design team proposed a 3D printed substrate that would allow the plants to have a root support matrix, necessary oxygen flow, and a passive water and nutrient delivery system. This substrate was designed to easily integrate into NASA’s Veggie and Advanced Plant Habitat platforms. 3D printed components are easily replaceable at a relatively low cost. In addition, since research and development has moved to using 3D printers in space, any needed garden components for the blocks could be easily re-printed while in orbit.
Document ID
20230009748
Acquisition Source
Kennedy Space Center
Document Type
Contractor or Grantee Report
Authors
Timothy Taylor (Utah State University Logan, Utah, United States)
Jackson Graham (Utah State University Logan, Utah, United States)
Scott Jones (Utah State University Logan, Utah, United States)
Iren Bencze (Utah State University Logan, Utah, United States)
Ryan Summers (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
Shelby Berrett (Utah State University Logan, Utah, United States)
Carter Bodnar (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
Joanna Boyd (Utah State University Logan, Utah, United States)
Jake Brockwell (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
Rebecca Brown (Utah State University Logan, Utah, United States)
Emily Burgett (Utah State University Logan, Utah, United States)
Kaitlin Burnash (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
Logan Crawford (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
Camille Daniels (Utah State University Logan, Utah, United States)
Amanda Dennis (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
Jaci Fielding (Utah State University Logan, Utah, United States)
Crystal Fowler (Utah State University Logan, Utah, United States)
Dallin Gividen (Utah State University Logan, Utah, United States)
Camren Hansen (Utah State University Logan, Utah, United States)
Skyler Heiner (Utah State University Logan, Utah, United States)
Brandon Furman (Utah State University Logan, Utah, United States)
Cameron LeBaron (Utah State University Logan, Utah, United States)
Nicholas Narrell (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
Ty Nicholas (Utah State University Logan, Utah, United States)
Adreann Peel (Utah State University Logan, Utah, United States)
Andrew Poulos (University of Alabama, Tuscaloosa Tuscaloosa, Alabama, United States)
David Redd (Utah State University Logan, Utah, United States)
Joshua Wallace (Utah State University Logan, Utah, United States)
Date Acquired
June 29, 2023
Publication Date
December 29, 2023
Subject Category
Life Sciences (General)
Lunar and Planetary Science and Exploration
Computer Programming and Software
Funding Number(s)
WBS: 089407
Distribution Limits
Public
Copyright
Use by or on behalf of the US Gov. Permitted.
Technical Review
NASA Technical Management

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