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Experimental and mathematical models were developed for describing and testing temperature and humidity parameters for plant production in bioregenerative life support systems. A factor was included for analyzing systems operating at low (10–101.3 kPa) pressure to reduce gas leakage and structural mass (e.g., inflatable greenhouses for space application). The expected close relationship between temperature and relative humidity was observed, along with the importance of heat exchanger coil temperature and air circulation rate. The presence of plants in closed habitats results in increased water flux through the system. Changes in pressure affect gas diffusion rates and surface boundary layers, and change convective transfer capabilities and water evaporation rates. A consistent observation from studies with plants at reduced pressures is increased evapotranspiration rates, even at constant vapor pressure deficits. This suggests that plant water status is a critical factor for managing low-pressure production systems. The approach suggested should help space mission planners design artificial environments in closed habitats.
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Keywords: Climate; Closed ecological system (CES); Control; Evaporation/condensation; Low pressure; Relative humidity; Temperature; Water cycle; Water flux

Document Type: Research Article

Affiliations: 1: *University of Florida, Agricultural and Biological Engineering Department, Box 110570, Gainesville, FL 32611-0570 2: †Dynamac Corporation KSC NASA, Mail Code, DYN-3, Kennedy Space Center, FL 32899 3: ‡NASA, Kennedy Space Center NASA, Mail Code, YA-E4, Kennedy Space Center, FL 32899

Publication date: January 1, 2004

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  • Habitation, International Journal for Human Support Research, is designed to meet the needs of an emerging field of study necessitated by the need to develop new technologies to support human activities within controlled environments.
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