Your search keyword '"frost point"' showing total 2 results

1. Investigation of Primary Dew-Point Saturator Efficiency in Two Different Thermal Environments

Author

Davor Zvizdić, Martti Heinonen, and Danijel Šestan

Subjects

Physics, Dew point, Dew-point generator, Frost point Humidity standard, Saturator efficiency, Single-pressure generator, Meteorology, Scale of temperature, Analytical chemistry, Atmospheric temperature range, Condensed Matter Physics, Humidity standard, Process measurement, Thermal, Calibration, Frost point, Overall performance, Realization (systems)

Abstract

The aim of this paper is to describe the evaluation process of the performance of the low-range saturator (LRS), when exposed to two different thermal environments. The examined saturator was designed, built, and tested at MIKES (Centre for Metrology and Accreditation, Finland), and then transported to the Laboratory for Process Measurement (LPM) in Croatia, where it was implemented in a new dew-point calibration system. The saturator works on a single-pressure–single-pass generation principle in the dew/frost-point temperature range between $$-70\,^{\circ }\hbox {C}$$ and $$+5\,^{\circ }\hbox {C}$$ . The purpose of the various tests performed at MIKES was to examine the efficiency and non-ideality of the saturator. As a test bath facility in Croatia differs from the one used in Finland, the same tests were repeated at LPM, and the effects of different thermal conditions on saturator performance were examined. Thermometers, pressure gauges, an air preparation system, and water for filling the saturator at LPM were also different than those used at MIKES. Results obtained by both laboratories indicate that the efficiency of the examined saturator was not affected either by the thermal conditions under which it was tested or by equipment used for the tests. Both laboratories concluded that LRS is efficient enough for a primary realization of the dew/frost-point temperature scale in the range from $$-70\,^{\circ }\hbox {C}$$ to $$+5\,^{\circ }\hbox {C}$$ , with flow rates between $$1\hbox { L}{\cdot }\hbox {min}^{-1}$$ and $$2.5\hbox { L}{\cdot }\hbox {min}^{-1}$$ . It is also shown that a considerable difference of the pre-saturator efficiency, indicated by two laboratories, did not have influence to the overall performance of the saturator. The results of the research are presented in graphical and tabular forms. This paper also gives a brief description of the design and operation principle of the investigated low-range saturator.

Published

2015

2. Humidity Measurements in Cold and Humid Environments

Author

Timo Laakso and Lasse Makkonen

Subjects

humidity measurements, Atmospheric Science, frost point, Meteorology, Hygrometer, Radiative cooling, Humidity, hygrometers, relative humidity, Dew point, Critical relative humidity, Frost, SDG 13 - Climate Action, Environmental science, Relative humidity, icing, arctic boundary layer, Icing

Abstract

Recent studies have shed new light on humidity conditions in the polar atmospheric boundary layer, and cast doubt on the reliability of humidity measurements above the frost point humidity. These issues are addressed herein by considering the processes that affect humidity and its measurement in cold climate conditions and by analyzing observations from two sites, at which the relative humidity is frequently above 100% at sub-freezing temperatures, as shown by repeatedly observed in-cloud icing events. Humidity measurements were made at these two sites by the commonly used Vaisala HMP35 probe and HMP233 capacitance probes respectively and simultaneously by the same manufacturer’s HMP243 probe that determines the frost point by a heated capacitance sensor. The results confirm that the relative humidity is frequently well above the frost point, both due to radiative cooling and to the advection of moist air, and that the conventional humidity measurements are unable to detect these events. Furthermore, after such events, the iced sensors show too high a humidity. The false values occur due to ice growth on the probe and cannot be corrected by any algorithm. Our results indicate that these problems, inherent to conventional humidity measurements in cold and humid environments, are avoided by the use of HMP243, which has a heated humidity probe.

Published

2005