Comfort Analysis

DesignBuilder EnergyPlus simulations can generate extensive data on environmental conditions within the building and resultant occupant comfort levels. The main static and adaptive comfort reports and metrics available are:

 

 

The following comfort-related outputs can be generated:

 

 

The above data can be displayed at all time increments. In addition, air, radiant and operative temperatures can be displayed as distribution curves (below).

 

You can find more detailed information about Fanger, Pierce and Kansas State University Thermal comfort prediction algorithms in the EnergyPlus Background Section.

 

The Mech Vent + Nat Vent + Infiltration data is the sum of fresh air delivered through the HVAC system, infiltration and natural ventilation outside airflow in air changes per hour (ac/h). When used together with the other environmental output it can be very useful in checking for occupant discomfort.

Note 1: It is possible to display comfort data for occupied periods only by selecting 2-Just occupied periods as Zone environmental and comfort reports on the Output tab of the simulation options dialog. This option applies to all data described in this Comfort Analysis help section.

Note 2: Comfort data are not generated when the Gains data model option is set to Lumped. This is because in EnergyPlus the request for comfort calculations is made in the 'PEOPLE' statement and this is not used with Lumped gains.

Block and Building comfort level data

The comfort data listed above is calculated for blocks using floor area weighted averages of the zones in the block. For example:

 

Block average Air temperature (Ta) = (A1 x Taz1 + A1 x Taz2 + A3 x Taz3 + ...)  /  (A1 + A2 + A3 + ...)

 

Where:

 

An is floor area of zone n,

Tazn is the air temperature of zone n

 

There is one exception, Mech Vent + Nat Vent + Infiltration, which is calculated in a similar way but using volume-weighted averages, i.e. using zone volumes instead of floor areas in the above equation.

 

Building data is calculated in the same way but including all blocks.

 

if the Include unoccupied zones in block and building totals and averages option is not set then unoccupied zones are not included in the above equation.

Note: if all zones in the block/building are unoccupied and the option is not set the denominator is zero and an error message is shown and results are deleted.

Temperature distribution

 

Simplified ASHRAE 55-2004 Graph Related Outputs

The Discomfort hours data is based on whether the humidity ratio and the operative temperature is within the region shown in ASHRAE Standard 55-2004 in Figure 5.2.1.1. For these outputs the operative temperature is simplified to be the average of the air temperature and the mean radiant temperature. For summer, the 0.5 Clo level is used and, for winter, the 1.0 Clo level is used. The graphs below are based on the following tables which extend the ASHRAE values to zero humidity ratio.

 

In some cases you may find a large number of discomfort hours for a particular zone even though the air temperature in the space is within normal ranges. If this happens you should check:

 

  1. Operative temperatures which can be very different in highly glazed spaces in the summer or poorly insulated spaces in the winter.
  2. Humidity levels are within range - you may find very high or very low humidity caused by inadequate ventilation. Note that the minimum comfort temperature with winter clothes when the air is very dry is 21.7°C / 71°F which may be lower than some heating temperature setpoints. Likewise in the summer when the air is very humid operative temperatures above 26.8°C / 80.2°F are considered too hot with summer clothes.

Winter Clothes

Summer Clothes

Note: in ASHRAE 55 comfort assessments the criteria can be exceeded, regardless of the temperature, if the relative humidity is too high.

You can also determine distributed comfort levels using CFD Comfort Calculations.