Estimation of Initial and Response Times of Laser Dew-Point Hygrometer by Measurement Simulation
スポンサーリンク
概要
- 論文の詳細を見る
The initial and the response times of the laser dew-point hygrometer were evaluated by measurement simulation. The simulation was based on loop computations of the surface temperature of a plate with dew deposition, the quantity of dew deposited and the intensity of scattered light from the surface at each short interval of measurement. The initial time was defined as the time necessary for the hygrometer to reach a temperature within ±0.5℃ of the measured dew point from the start time of measurement, and the response time was also defined for stepwise dew-point changes of +5℃ and -5℃. The simulation results are in approximate agreement with the recorded temperature and intensity of scattered light of the hygrometer. The evaluated initial time ranged from 0.3 min to 5 min in the temperature range from 0℃ to 60℃, and the response time was also evaluated to be from 0.2 min to 3 min.
- 社団法人応用物理学会の論文
- 1995-10-15
著者
-
Toyooka Satoru
Optical Sensing Laboratory Department Of Mechanical Engineering Faculty Of Engineering Saitama Unive
-
Toyooka Satoru
Optical Sensing Laboratory Department Of Mechanical Engineering Faculty Of Engineering Saitama Unive
-
MATSUMOTO Sigeaki
Department of Information Engineering, The Polytechnic University
-
Matsumoto Sigeaki
Department Of Information Engineering The Polytechnic University
関連論文
- Estimation of Initial and Response Times of Laser Dew-Point Hygrometer by Measurement Simulation
- Laser Dew-Point Hygrometer
- A new oxidizing system for aromatic alcohols by the combination of N-oxoammonium salt and electrosynthesized tetraalkylammonium tribromide.
- Indirect electrooxidation of halohydrins by a double mediatory system of Ru(VIII)/Ru(IV) and (Cl+)/Cl-. Optimization for the oxidation of 1,3-dichloro-2-propanol to 1,3-dichloroacetone.