Moist Air Properties:

 

Example 3.11:  Calculate moist air properties given dry-bulb temperature (t) 100 °F, wet-bulb temperature (t*) 80 °F, and pressure 29.921 in Hg.  Use Mollier Diagram.

 

Solution: Dry-bulb temperature, t = 100 °F, Wet-bulb temperature, t^* = 80 °F.

 

C                  Humidity ratio at saturation, W_s^* :

Draw a vertical line from wet bulb temperature, 80 °F till it intersects the saturation line.

Draw a horizontal line and extend it to read humidity ratio, W_s^* = 0.022 pound of water per pound of dry air. 

 

C                  Absolute humidity ratio, W:

Locate the point that describes the actual condition of air (100 °F dry-bulb, and 80 °F wet-bulb temperature).

Draw a horizontal line to read, W = 0.0175 pound of water per pound of dry air. 

 

C                  Humidity ratio at saturation W_s:

Draw a vertical line from a point representing the dry-bulb temperature.

Extend this line till it intersects the saturation line.

Draw a horizontal line to read the humidity ratio, W_s = 0.043 pound of water per pound of dry air. 

 

C                  Relative humidity, φ = 42%. 

C                  Volume of humid air, υ: = 14.5 ft³/lb.

C                  Enthalpy of the humid air, h:

Read the enthalpy of saturated air at wet-bulb temperature = 43.6 Btu/lb

Read the residual enthalpy of actual air = -.024

h = 43.6 - 0.24 = 43.36 Btu/lb

C                  Dew point can be found by drawing a horizontal line from a point representing the humid air and reading the saturation temperature, t_d.

 t_d.=