Water vapor enjoys unique importance in Earth’s atmosphere and human environments in space. In spite of this importance, humidity measurement remains a difficult technological problem, and no single instrument is optimal for all applications. We have developed and demonstrated a high-sensitivity dewpoint hygrometer in flight tests on a small radiosonde balloon and the NASA DC8. This instrument achieves fast response to atmospheric humidity by using a surface acoustic wave (SAW) device to detect condensation with much higher sensitivity than conventional optical dew detectors. An early prototype showed more than an order of magnitude faster response than chilled-mirror hygrometers in tropospheric humidity measurements on the NASA DC8. For the radiosonde experiment, we miniaturized and integrated the SAW hygrometer into a 1 kg package that includes pressure and temperature sensors, GPS, a programmable instrument controller, a high-speed radio modem, and lithium-ion batteries. We flew this instrument to 44,000 feet on a small balloon for a side-by- side comparison with a commercial radiosonde. Design elements of the reference radiosonde are presented, along with a discussion of requirements for a hand-held instrument for NASA’s Human Exploration and Development of Space Enterprise.
A Miniature Dewpoint Hygrometer for Monitoring Human Environments in Space
Sae Technical Papers
International Conference On Environmental Systems ; 2000
2000-07-10
Conference paper
English
Sensors and actuators , Optics , Balloons , Lithium-ion batteries , Flight tests , Pressure , Humidity , Water , Soils
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