Question

A room has relative humidity of `20%` at `20` degrees Celsius with dimensions `3m \times 3m \times 2.7m`. Determine the amount of water vapour in grams and liters that must be added to the air of the room in order to raise the relative humidity to `60%`?

Answer 1

`"mass of water to be added" = 168.2 g`

`"Liters of water to be added" = 168.2xx10^-3" L"`

Explanation:

The information that I am using to work this problem is obtained from this reference on Relative Humidity .

Compute the volume of the room:

`3" m"xx 3" m"xx2.7" m" = 24.3" m"^3`

Using the equation:

`R.H. = "actual vapor density"/"saturated vapor density"xx100`

and, at `20^@" C"`, the `"saturated vapor density" = 17.3" g/m"^3` we may obtain the mass density of water vapor in the air at `R.H. = 20%`

`"actual vapor density" = (20%)/100(17.3" g/m"^3)`

`"actual vapor density" = 3.46" g/m"^3`

Please observe that the equation for relative humidity is linear, therefore, multiplying the relative humidity by 3 will multiply the actual vapor density by 3, which is the same as adding twice the original amount:

`"change in actual vapor density" = 2(3.46" g/m"^3)`

`"change in actual vapor density" = 6.92" g/m"^3`

We can compute the number of grams to be added by multiplying the above by the volume of the room:

`"mass of water to be added" = (6.92" g/m"^3)(24.3" m"^3)`

`"mass of water to be added" = 168.2 g`

To convert grams of water to liters of water we multiply by `1xx10^-3" L/g"`

`"Liters of water to be added" = 168.2xx10^-3" L"`