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Simulations of vapor water clusters at vapor–liquid equilibrium
The Journal of Chemical Physics, 2005The Gibbs-ensemble Monte Carlo methods based on the extended single point charge [H. J. C. Berendsen, J. R. Grigera, and T. P. Straatsma, J. Phys. Chem. 91, 6269 (1987)] potential-energy surface have been used to study the clustering of vapor phase water under vapor–liquid equilibrium conditions between 300 and 600K.
Erik, Johansson +2 more
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Prediction of water vapor scale height from integrated water vapor measurements
IGARSS '96. 1996 International Geoscience and Remote Sensing Symposium, 2005A method for estimating the 10% height of water vapor in the atmosphere is presented. This 10% height is the altitude below which 10% of the atmospheric water vapor vertical distribution occurs. The estimation is based on a time series of ground-based measurements of integrated water vapor, and results from the behavior of the turbulence structure ...
J.P. Bobak, C.S. Ruf
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2006
Introduction Water vapor is a key climate variable, serving to link a variety of complex and poorly understood processes. Although comprising less than 1% of the atmospheric mass, water vapor is the dominant gaseous absorber of thermal radiation.
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Introduction Water vapor is a key climate variable, serving to link a variety of complex and poorly understood processes. Although comprising less than 1% of the atmospheric mass, water vapor is the dominant gaseous absorber of thermal radiation.
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Water Vapor Fields Deduced from METEOSAT-1 Water Vapor Channel Data
Journal of Climate and Applied Meteorology, 1983Abstract A quasi-operational process for the determination of water vapor fields from METEPSAT-1 water vapor channel data is described. Each count of the WV picture is replaced by the corresponding mean relative humidity value using both the calibration of the WV channel and the empirical relation between radiance and relative humidity.
M. M. Poc, M. Roulleau
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Water vapor absorption in insects
American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 1983In common with other animals the principal examples of water transport in insects are to be found in processing food and in excretion. Some insects and other arthropods are able to absorb water vapor using preexisting buccal or rectal structures. This unique exploitation of atmospheric water depends on adequate areas for condensing water vapor and the
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1999
Materials which are able to take in or let out moisture either need to be porous or selectively permeable. Membranes are products which are permeable to low molecular weight products or ions. In this work we will discuss mainly microporous or hydrophilic films, coatings and impregnations, i.e. materials permeable to water vapor.
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Materials which are able to take in or let out moisture either need to be porous or selectively permeable. Membranes are products which are permeable to low molecular weight products or ions. In this work we will discuss mainly microporous or hydrophilic films, coatings and impregnations, i.e. materials permeable to water vapor.
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