Accurate root zone moisture control in microgravity plant growth systems is problematic. With gravity, excess water drains along a vertical gradient, and water recovery is easily accomplished. In microgravity, the distribution of water is less predictable and can easily lead to flooding, as well as anoxia. Microgravity water delivery systems range from solidified agar, water-saturated foams, soils and hydroponics soil surrogates including matrix-free porous tube delivery systems. Surface tension and wetting along the root substrate provides the means for adequate and uniform water distribution. Reliable active soil moisture sensors for an automated microgravity water delivery system currently do not exist. Surrogate parameters such as water delivery pressure have been less successful.
Microgravity Root Zone Hydration Systems
Sae Technical Papers
International Conference On Environmental Systems ; 2000
10.07.2000
Aufsatz (Konferenz)
Englisch
Sensors and actuators , Logistics , Pressure , Microgravity , Gravity , Reliability , Foams , Water , Soils
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