Ke. Haman et al., A NEW ULTRAFAST THERMOMETER FOR AIRBORNE MEASUREMENTS IN CLOUDS, Journal of atmospheric and oceanic technology, 14(2), 1997, pp. 217-227
A new aircraft device for measuring temperature in clouds is described
. Its sensor is a resistance thermometer made of platinum-coated tungs
ten wire 5 mm long and 2.5 mu m in diameter. The sensor is located on
a rotatable vane behind a thin rod aimed at protecting it against the
impact of cloud droplets, which according to limited experience gather
ed until now seems to be sufficiently effective as an antiwetting prot
ection for the speeds of motorgliders. Contrary to the massive housing
s usually adopted in other constructions, the rod creates only negligi
ble disturbances in the thermodynamic properties of the ambient air. T
he time constant of the sensor is of the order 10(-4) s, which permits
measurements of temperature id clouds with a resolution of a few cent
imeters, depending on aircraft velocity. The thermometer was tested in
a wind tunnel, and on an Ogar motorglider and a Do-228 aircraft. Its
present version performs fairly well at low airspeeds of up to about 4
0 m s(-1). For faster aircraft further improvements seem necessary. Th
e paper presents a detailed description of the instrument, discussion
of test results, and examples of centimeter-scale features of temperat
ure fields in clouds measured with the thermometer.