Atmospheric Leakage and Condensate Production in Nasa's Biomass Production Chamber. Effect of Diurnal Temperature Cycles

Atmospheric Leakage and Condensate Production in Nasa's Biomass Production Chamber. Effect of Diurnal Temperature Cycles
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Publisher : Createspace Independent Publishing Platform
Total Pages : 34
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ISBN-10 : 172517264X
ISBN-13 : 9781725172647
Rating : 4/5 (4X Downloads)

Book Synopsis Atmospheric Leakage and Condensate Production in Nasa's Biomass Production Chamber. Effect of Diurnal Temperature Cycles by : National Aeronautics and Space Administration (NASA)

Download or read book Atmospheric Leakage and Condensate Production in Nasa's Biomass Production Chamber. Effect of Diurnal Temperature Cycles written by National Aeronautics and Space Administration (NASA) and published by Createspace Independent Publishing Platform. This book was released on 2018-08-16 with total page 34 pages. Available in PDF, EPUB and Kindle. Book excerpt: A series of tests were conducted to monitor atmospheric leakage rate and condensate production in NASA's Biomass Production Chamber (BPC). Water was circulated through the 64 plant culture trays inside the chamber during the tests but no plants were present. Environmental conditions were set to a 12-hr photoperiod with either a matching 26 C (light)/20 C (dark) thermoperiod, or a constant 23 C temperature. Leakage, as determined by carbon dioxide decay rates, averaged about 9.8 percent for the 26 C/20 C regime and 7.3 percent for the constant 23 C regime. Increasing the temperature from 20 C to 26 C caused a temporary increase in pressure (up to 0.5 kPa) relative to ambient, while decreasing the temperature caused a temporary decrease in pressure of similar magnitude. Little pressure change was observed during transition between 23 C (light) and 23 C (dark). The lack of large pressure events under isothermal conditions may explain the lower leakage rate observed. When only the plant support inserts were placed in the culture trays, condensate production averaged about 37 liters per day. Placing acrylic germination covers over the tops of culture trays reduced condensate production to about 7 liters per day. During both tests, condensate production from the lower air handling system was 60 to 70 percent greater than from the upper system, suggesting imbalances exist in chilled and hot water flows for the two air handling systems. Results indicate that atmospheric leakage rates are sufficiently low to measure CO2 exchange rates by plants and the accumulation of certain volatile contaminants (e.g., ethylene). Control system changes are recommended in order to balance operational differences (e.g., humidity and temperature) between the two halves of the chamber. Wheeler, Raymond M. and Drese, John H. and Sager, John C. Kennedy Space Center NASA-TM-103819, NAS 1.15:103819 NAS10-11624...


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