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1

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Effect of 16 and 24 hours daily radiation (light) on lettuce growth (1986)

Prince, R. P. ; Koontz, H. V. ; Knott, W. M.

In: Other Sources

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Publication Date: 2011-08-24

Description: A 50% increase in total radiation by extending the photoperiod from 16 to 24 hr doubled the weight of all cultivars of loose-leaf lettuce (Lactuca sativa L.) 'Grand Rapids Forcing', 'Waldmanns Green', 'Salad Bowl', and 'RubyConn', but not a Butterhead cultivar, 'Salina'. When total daily radiation (moles of photons) was the same, plants under continuous radiation weighed 30% to 50% more than plants under a 16 hr photoperiod. By using continuous radiation on loose-leaf lettuce, fewer lamp fixtures were required and yield was increased.

Keywords: Man/System Technology and Life Support

Type: HortScience : a publication of the American Society for Horticultural Science (ISSN 0018-5345); Volume 21; 1; 123-4

Format: text

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2

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Comparison of fluorescent and high-pressure sodium lamps on growth of leaf lettuce (1987)

Prince, R. P. ; Koontz, R. F. ; Koontz, H. V. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Radiation from high-pressure sodium (HPS) lamps provided more than a 50% increased yield (fresh and dry weight of tops) of loose-leaf lettuce cultivars Grand Rapids Forcing and RubyConn, compared to that obtained by radiation from cool-white fluorescent (CWF) lamps at equal photosynthetic photon flux; yet, input wattage was approximately 36% less. It was postulated that the considerable output of 700 to 850 nm radiation from the HPS lamp was a significant factor of the increased yield. Under HPS lamps, the leaves of both cultivars were slightly less green with very little red pigmentation ('RubyConn') and slightly elongated, compared to CWF, but plant productivity per unit electrical energy input was vastly superior with HPS.

Keywords: Man/System Technology and Life Support

Type: HortScience : a publication of the American Society for Horticultural Science (ISSN 0018-5345); Volume 22; 3; 424-5

Format: text

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3

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CELSS Breadboard Project at the Kennedy Space Center (1989)

Knott, W. M., III ; Prince, R. P.

In: Other Sources

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Publication Date: 2011-08-19

Description: The CELSS Breadboard Project is described, noting that it was initiated to study aspects of a CELSS for long-term space missions. Topics for extensive investigation included air and water regeneration, engineering control, and food production. The many options available for growing food crops in commercial plant growth chambers were investigated and the best of this information was translated to the Biomass Production Chamber (BPC). The chamber contains 20 sq m of crop growing area under 96 400 W HPS lamps; sixteen 0.25 sq m plant growth trays used on each of four growing shelves for a total of 64 trays; and one 256-L nutrient solution reservoir with the appropriate continuous-flow, thin-film plumbing for each shelf. A heating, ventilating, and air-conditioning system maintains atmospheric conditions and serves to distribute oxygen and carbon dioxide and maintain pressure at 12 mm of water. The control and monitoring subsystem, which uses a programmable logic controller, manages the BPC subsystems.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Format: text

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A review of recent activities in the NASA CELSS program (1987)

Tremor, J. ; Knott, W. ; Macelroy, R. D. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: A CELSS (Controlled Ecological Life Support System) is a device that utilizes photosynthetic organisms and light energy to regenerate waste materials into oxygen and food for a crew in space. The results of theoretical and practical studies conducted by investigators within the CELSS program suggest that a bioregenerative life support system can be a useful and effective method of regenerating consumable materials for crew sustenance. Experimental data suggests that the operation of a CELSS in space will be practical if plants can be made to behave predictably in the space environment. Much of the work currently conducted within the CELSS program centers on the biological components of the CELSS system. The work is particularly directed at ways of achieving high efficiency and long term stability of all components of the system. Included are explorations of the conversion of nonedible cellulose to edible materials, nitrogen fixation by biological and chemical methods, and methods of waste processing. It is the intent of the presentation to provide a description of the extent to which a bioregenerative life support system can meet the constraints of the space environment, and to assess the degree to which system efficiency and stability can be increased during the next decade.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Type: Advances in Space Research (ISSN 0273-1177); 7; 4, 19

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5

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A review of recent activities in the NASA CELSS program (1987)

Prince, R. P. ; Tremor, J. ; Macelroy, R. D. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: A CELSS (Controlled Ecological Life Support System) is a device that utilizes photosynthetic organisms and light energy to regenerate waste materials into oxygen and food for a crew in space. The results of studies with the CELSS program suggest that a bioregenerative life support system is a useful and effective method of regenerating consumable materials for crew sustenance. The data suggests that the operation of a CELSS in space is practical if plants can be made to behave predictably in the space environment. Much of the work centers on the biological components of the CELSS system. Ways of achieving high efficiency and long term stability of all components of the system are examined. Included are explorations of the conversion of nonedible cellulose to edible materials, nitrogen fixation by biological and chemical methods, and methods of waste processing. A description is provided of the extent to which a bioregenerative life support system can meet the constraints of the space environment, and the degree is assessed to which system efficiency and stability can be increased during the next decade.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Type: Controlled Ecological Life Support System: Regenerative Life Support Systems in Space; p 51-55

Format: application/pdf

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Challenges in the development of the orbiter atmosphere revitalization subsystem (1985)

Ord, G. R. ; Gibb, J. W. ; Walleshauser, J. J. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: The space shuttle orbiter atmospheric revitalization subsystem provides thermal and contaminant control as well as total- and oxygen partial-pressure control of the environment within the orbiter crew cabin. Challenges that occurred during the development of this subsystem for the space shuttle orbiter are described. The design of the rotating hardware elements of the system (pumps, fans, etc.) required significant development to meet the requirements of long service life, maintainability, and high cycle-fatigue life. As a result, a stringent development program, particularly in the areas of bearing life and heat dissipation, was required. Another area requiring significant development was cabin humidity control and condensate collection.

Keywords: SPACE TRANSPORTATION

Type: Space Shuttle Tech. Conf., Pt. 1; p 414-425

Format: application/pdf

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7

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Plant growth chamber M design (1986)

Prince, R. P. ; Knott, W. M.

In: CASI

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Publication Date: 2016-06-07

Description: Crop production is just one of the many processes involved in establishing long term survival of man in space. The benefits of integrating higher plants into the overall plan was recognized early by NASA through the Closed Ecological Life Support System (CELSS) program. The first step is to design, construct, and operate a sealed (gas, liquid, and solid) plant growth chamber. A 3.6 m diameter by 6.7 m high closed cylinder (previously used as a hypobaric vessel during the Mercury program) is being modified for this purpose. The chamber is mounted on legs with the central axis vertical. Entrance to the chamber is through an airlock. This chamber will be devoted entirely to higher plant experimentation. Any waste treatment, food processing or product storage studies will be carried on outside of this chamber. Its primary purpose is to provide input and output data on solids, liquids, and gases for single crop species and multiple species production using different nutrient delivery systems.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Type: NASA. Ames Research Center Controlled Ecological Life Support Systems; p 119-128

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8

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Criteria for evaluating experiments on crop production in space (1989)

Wheeler, R. ; Prince, R. ; Berry, W. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Consideration is given to the development of criteria for successful CELSS experiments on crop production in space. Also, the development of a standard procedure to produce a given expected yield is examined. Factors influencing the success of CELSS experiments are discussed, including environmental limits to growth, efficient use of resources, data collection sensitivity, stress, and the space in which the experiment is performed. The implications of the study for designing CELSS food production systems are noted.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Type: SAE PAPER 891569

Format: text

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9

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Continuous hydroponic wheat production using a recirculating system (1989)

Prince, R. P. ; Mackowiak, C. L. ; Owens, L. P. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Continuous crop production, where plants of various ages are growing simultaneously in a single recirculating nutrient solution, is a possible alternative to batch production in a Controlled Ecological Life Support System. A study was conducted at John F. Kennedy Space Center where 8 trays (0.24 sq m per tray) of Triticum aestivum L. Yecora Rojo were grown simultaneously in a growth chamber at 23 C, 65 percent relative humidity, 1000 ppm CO2, continuous light, with a continuous flow, thin film nutrient delivery system. The same modified Hoagland nutrient solution was recirculated through the plant trays from an 80 L reservoir throughout the study. It was maintained by periodic addition of water and nutrients based on chemical analyses of the solution. The study was conducted for 216 days, during which 24 trays of wheat were consecutively planted (one every 9 days), 16 of which were grown to maturity and harvested. The remaining 8 trays were harvested on day 216. Grain yields averaged 520 g m(exp -2), and had an average edible biomass of 32 percent. Consecutive yields were unaffected by nutrient solution age. It was concluded that continual wheat production will work in this system over an extended period of time. Certain micronutrient deficiencies and toxicities posed problems and must be addressed in future continuous production systems.

Keywords: LIFE SCIENCES (GENERAL)

Type: NASA-TM-102784 , NAS 1.15:102784

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10

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Porous membrane utilization in plant nutrient delivery (1987)

Hinkle, C. R. ; Knott, W. M., III ; Dreschel, T. W. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A spacecraft hydroponic plant growth unit of tubular configuration, employing a microporous membrane as a capilary interface between plant roots and a nutrient solution, is presented. All three of the experimental trials undertaken successfully grew wheat from seed to harvest. Attention is given to the mass/seed, number of seeds/head, ratio of seed dry mass to total plant dry mass, production of tillers, and mass of seed/plant. Dry matter production is found to be reduced with increasing suction pressure; this is true for both average seed and average total dry matter/plant. This may be due to a reduction in water and nutrient availability through the microporous membrane.

Keywords: LIFE SCIENCES (GENERAL)

Type: ASAE PAPER 87-0425

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