VAV & CAV Fans

HVAC tab in model data under Mechanical Ventilation header- Compact HVAC

Fan pressure rise

Enter the pressure rise at full flow and standard conditions. Standard conditions are considered 20°C at sea level, 101325 Pa.

 

See also Calculating Fan Pressure Rise.

Fan total efficiency (%)

Enter the product of the fan motor and impeller efficiency of the supply fan. This is the ratio of the power delivered to the air to the electrical input power at maximum flow expressed as a percentage. The motor efficiency is the power delivered to the shaft divided by the electrical power input to the motor. The fan efficiency is power delivered to the air divided by the shaft power. The power delivered to the fluid is the mass flow rate of the air multiplied by the pressure rise divided by the air density. Must be greater than 0 and less than or equal to 100.

Fan motor in air (%)

Enter the percentage of the motor heat that is added to the air stream. A value of 0 means that the motor is completely outside the air stream. A value of 100 means that all of the motor heat will go into the air stream and act to cause a temperature rise. Must be between 0 and 100.

Fan placement

Enter the supply fan placement type. There are two choices:

 

 

The default is 1-Draw through.

Fan part-load power coefficients

Select the set of generic pre-defined coefficients to use for the supply fan part-load power consumption. Choices are:

 

 

The resulting power curves are shown in the graph below. The ASHRAE 90.1-2004 Appendix G coefficients are from TABLE G3.1.3.15, Method 2. The other sets of coefficients are from the EnergyPlus Input Output Reference, Fan Coefficient Values table.

 

Fan power and temperature pick up calculations

The calculations for fan power and airflow temperature pick up are detailed in the EnergyPlus Engineering Document. A summary is provided below:

Total Fan Power = Mass flow rate. DeltaP / (Total fan efficiency . Air density)

Shaft Fan Power = Motor efficiency . Total Fan Power

Heat to air = Shaft Fan Power + (Total Fan Power - Shaft Fan Power) . Motor in air fraction