Volume of water vapor/ Total Volume = Partial pressure of water vapor/ Total pressure
This is because vapor pressure is a function of temperature.Īs you decrease temperature, the vapor pressure decreases. There will be a temperature at which the partial pressure of water equals the vapor pressure When a mixture of non-condensible gas and water vapor is progressively cooled, Partial pressure of water=Vapor pressure of water at that temperature The first drop of water condenses at a temperature when The moisture ppm and moisture dewpoint are related from first principles. I hope this addresses your specific problem and aids you in identifying the problem you are facing with your instrument. Bernard pinpointed the classic formulation (Goff-Gratch Equation) and gives you a source for the background as well as the historical trials and tribulations that have occurred in arriving at this stage in trying to identify the vapor pressure of water in gases at low temperatures with accuracy.įor tabulations of ppmV versus Dewpoint go to:Īnd for a means to calculate the specific value on-line, go to: You can find a lot of useful information on the subject of Saturation Vapor Pressure formulations - which is the underlying theory for the moisture dewpoint of a gas - on the Internet. I believe it will take you directly to the indicated webpage now. Your reference URL wasn't working for some reason, so I fixed it. Thanks for the useful and instructive information.