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An overview: recycling nutrients from crop residues for space applications (1997)

Atkinson, C. F. ; Strayer, R. F.

In: Other Sources

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Publication Date: 2011-08-24

Description: Without some form of regenerative life support system, long duration space habitation or travel will be limited severely by the prohibitive costs of resupplying air, water, and food from Earth. Components under consideration for inclusion in a regenerative life support system are based on either physicochemical or biological processes. Physicochemical systems would use filtration and elemental phase changes to convert waste materials into usable products, while biological systems would use higher plants and bioreactors to supply crew needs. Neither a purely biological nor strictly a physicochemical approach can supply all crew needs, thus, the best each approach can offer will be combined into a hybrid regenerative life support system. Researchers at Kennedy Space Center (KSC) Advanced Life Support Breadboard Project have taken the lead on bioregenerative aspects of space life support. The major focus has been on utilization of higher plants for production of food, oxygen, and clean water. However, a key to any regenerative life support system is recycling and recovery of resources (wastes). In keeping with the emphasis at KSC on bioregenerative systems and with the focus on plants, this paper focuses on research with biologically-based options for resource recovery from inedible crop residues.

Keywords: Man/System Technology and Life Support

Type: Compost science &amp; utilization (ISSN 1065-657X); Volume 5; 3; 25-31

Format: text

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2

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Evaluating the feasibility of biological waste processing for long term space missions (1998)

Alazraki, M. P. ; Garland, J. L. ; Atkinson, C. F. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Recycling waste products during orbital (e.g., International Space Station) and planetary missions (e.g., lunar base, Mars transit mission, Martian base) will reduce storage and resupply costs. Wastes streams on the space station will include human hygiene water, urine, faeces, and trash. Longer term missions will contain human waste and inedible plant material from plant growth systems used for atmospheric regeneration, food production, and water recycling. The feasibility of biological and physical-chemical waste recycling is being investigated as part of National Aeronautics and Space Administration's (NASA) Advanced Life Support (ALS) Program. In-vessel composting has lower manpower requirements, lower water and volume requirements, and greater potential for sanitization of human waste compared to alternative bioreactor designs such as continuously stirred tank reactors (CSTR). Residual solids from the process (i.e. compost) could be used a biological air filter, a plant nutrient source, and a carbon sink. Potential in-vessel composting designs for both near- and long-term space missions are presented and discussed with respect to the unique aspects of space-based systems.

Keywords: Man/System Technology and Life Support

Type: Acta horticulturae (ISSN 0567-7572); Volume 469; 71-8

Format: text

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3

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NASA tests composters for space (1997)

Atkinson, C.

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Publication Date: 2011-08-24

Description: For long term missions, composters may be an integral part of a life support system that provides edible food crops, extracts nutrients from plant biomass and removes contaminants from the recycling stream.

Keywords: Man/System Technology and Life Support

Type: BioCycle (ISSN 0276-5055); Volume 38; 3; 47-8

Format: text

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4

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Composting in advanced life support systems (1998)

Loader, C. ; Alazraki, M. ; Sager, J. C. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Space missions of extended duration are currently hampered by the prohibitive costs of external resupply. To reduce the need for resupply, the National Aeronautics and Space Administration (NASA) is currently testing methods to recycle solid wastes, water, and air. Composting can be an integral part of a biologically based waste treatment/recycling system. Results indicate that leachate from composted plant wastes is not inhibitory to seed germination and contains sufficient inorganic minerals to support plant growth. Other solid wastes, for example kitchen (food) wastes and human solid wastes, can be composted with inedible plant residues to safely reduce the volume of the wastes and levels of microorganisms potentially pathogenic to humans. Finished compost could serve as a medium for plant growth or mushroom production.

Keywords: Man/System Technology and Life Support

Type: Acta horticulturae (ISSN 0567-7572); Volume 469; 195-201

Format: text

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