Cooling
HVAC tab in model
data - Simple HVAC
You can enter details on the cooling system including the maximum capacity
(at zone level).
Note: for all
systems, cooling setpoint temperatures
are defined on the Activity tab.
Cooled
If the zone is to be actively cooled then check this checkbox. When it is checked the rest of the items described on this page become available.
Cooling system
This item is shown with a green background as it is used in Cooling design calculations only. The data is normally used to group zones together that are served by the same AHU. This allows the cooling capacity of the AHU to be calculated on the Cooling design screen.
By default DesignBuilder provides a single Cooling system called Default and all zones are allocated to it. You can create new Cooling systems and select them in the same way that any other component such as a glazing system would be created and selected. Cooling systems have no data other than a name.
Cooling capacity
The Cooling capacity can either be entered by hand or can be Autosized
using the Cooling Design Calculations.
If, immediately prior to a Simulation
the Cooling capacity has not been entered (neither by hand nor from a
previous Cooling Design Calculation) then a Cooling design autosizing
simulation is started to calculate the capacity. The Plant
sizing building model option controls the way this works.
You can change cooling capacities by hand if you wish but you should
bear in mind that, by default, if Model Options change, all heating and
cooling capacities are reset to zero. Set the Plant
sizing model option to '2-Manual' to avoid this happening.
Supply Air Conditions
When using Simple
HVAC you
can specify the cooling supply air conditions of the air.
Minimum supply air delivery temperature
The minimum dry-bulb air temperature of the
air supplied for cooling the zone (in °C or °F).
Minimum supply air humidity ratio
The minimum humidity ratio (kg of water per kg of dry air) of the cool supply air. The default is 0.0077 kg-H2O/kg-air which corresponds to a 10C (50F) dew point. You should be careful to enter a value that is a valid condition, i.e. it is under the 100% saturation line on the Psychrometric Chart.
Cooling limit type
There are 3 ways that EnergyPlus ideal loads systems can limit zone cooling capacity (for simulations only):
- 1-Limit flow rate - means that the cooling supply air flow rate will be limited to a flow rate value calculated based on the autosizing model option settings. When using the 3-Autosize HVAC sizing method, the flow rate limit is calculated by EnergyPlus sizing calculations. Otherwise if the DesignBuilder sizing method is used, the flow rate is calculated based on the required cooling capacity calculated by DesignBuilder and the Minimum supply air delivery temperature (above).
- 2-Limit capacity - means that the sensible cooling capacity will be limited to a capacity value calculated based on the autosizing model option settings. When using the 3-Autosize HVAC sizing method the capacity is calculated by EnergyPlus sizing calculations. Otherwise if the DesignBuilder sizing method is used the flow rate is calculated based on the required cooling capacity calculated by DesignBuilder and the Minimum supply air delivery temperature (above).
- 3-Limit flow rate and capacity - means that both flow rate and capacity will be limited to the above values.
Technical description
EnergyPlus uses the following 4 settings to define the maximum cooling input for ideal loads systems:
-
Minimum Cooling Supply Air Temperature
-
Maximum Cooling Air Flow Rate,
-
Maximum Total Cooling Capacity
When using the default 3-Autosize HVAC sizing Model option the "Minimum Cooling Supply Air Temperature" and "Cooling Limit Type" IDF fields are set using corresponding data from the HVAC tab, and the "Maximum Cooling Air Flow Rate" and "Maximum Total Cooling Capacity" fields are calculated by EnergyPlus before the simulation in the design sizing calculations.
Alternatively, when using either of the 2-Manual or 4-Autosize when not set HVAC sizing Model options, the "Maximum Cooling Supply Air Temperature", "Maximum Sensible Cooling Capacity" and "Cooling Limit Type" IDF fields are set using corresponding data from the HVAC tab, and DesignBuilder calculates the corresponding "Maximum Cooling Air Flow Rate" based on the user-defined Cooling capacity and Minimum supply air delivery temperature data. In this case all of the 4 related IDF fields are specified in the IDF by DesignBuilder.
Or when the 1-Adequate HVAC sizing Model option is selected, DesignBuilder sets the EnergyPlus "Cooling Limit Type" IDF field to "NoLimit" which means that the cooling system can meet any load. In this case the other 3 fields are not needed and so are not provided in the IDF.
In all of the above cases, apart from when the 1-Adequate HVAC sizing Model option is selected, EnergyPlus holds values for each of the 4 settings used to define the maximum cooling input for ideal loads systems, and the way these are used in the simulation is defined by the Cooling limit type per the above descriptions.
Note: In practice this setting should not make a noticeable difference to the thermal heat balance of the zone during cooling since the maximum cooling delivery to the zone is already defined before the simulation and this setting simply tells EnergyPlus exactly how to apply the limit.
Cooling Plant
Cooling fuel
Select the type of fuel used to generate the cooling energy - choose
from:
| Interface Fuel Name |
Fuel in results |
| 1-Electricity from grid |
Electricity |
| 2-Natural Gas |
Gas |
| 3-Oil |
Oil |
| 4-Coal |
Solid fuel |
| 5-LPG |
Bottled gas |
| 6-Biogas |
Bottled gas |
| 7-Anthracite |
Solid fuel |
| 8-Smokeless Fuel (inc Coke) |
Solid fuel |
| 9-Dual Fuel Appliances (Mineral + Wood) |
Other |
| 10-Biomass |
Other |
| 11-Waste Heat |
Other |
You should select 1-Electricity from grid you wish the results displayed in DesignBuilder to agree with those calculated by EnergyPlus directly for District cooling and displayed on the Summary tab of the Simulation screen.
Cooling system CoP
The cooling system coefficient of performance is used to calculate the
fuel consumption required to meet cooling demand. The value represents
the total seasonal efficiency of the entire cooling system and should
include the effect of all energy consumption associated with building
cooling such as fan and pump energy, chiller inefficiency, control equipment
etc.
Cooling system CoP data is specified by zone so you can model different
cooling efficiencies in each zone. But generally you should access this
data from the building level and allow zones to take on building default.
Note: When comparing the cooling fuel consumption results with the data displayed on the Summary tab, it is important to realise that DesignBuilder applies a fuel type and a CoP to the idealised cooling systems used in EnergyPlus when using Simple HVAC. On the other hand EnergyPlus displays the unprocessed loads as District cooling in the tables on the Summary tab. This is because the idealised systems in EnergyPlus are considered to be met directly without use of HVAC equipment through a district cooling type system.
Operation
Cooling operation schedule
This schedule data is used in conjunction with the cooling
setpoint temperatures on the Activity
tab to define the time-varying cooling setpoint schedule in the zone. The operation schedule defines the times when full and setback
setpoints should be met and the setpoint data on the Activity tab define
the actual setpoint values. See Defining
setpoint temperature schedules for more on this.
Note: the zone cooling operation schedule is also used in Detailed HVAC with the default 1-Simple HVAC Detailed HVAC Activity data setting.