Chilled Ceiling - Constant Flow

 

ZoneHVAC:LowTemperatureRadiant:VariableFlow

 

 

Used in:

 

  • HVAC Zones

 

The constant flow chilled ceiling keeps flow rate constant via a local circulation pump and varies the water temperature that is sent to the ceiling. This is accomplished with a mixing valve that is controlled by a sensor. The constant flow chilled ceiling type has a built-in local secondary loop. It will re-circulate flow coming out of the system and mix this with flow from the loop to arrive at the desired inlet temperature to the ceiling (note that this chilled ceiling model has the temperature sensor after the pump to ensure proper inlet temperature to the ceiling). The local loop also contains a pump which is assumed to be upstream of the component and after the mixing valve. So, the local loop can have some recirculation. The flow from the main loop may also bypass the component if more than enough flow is available and the main loop is also a constant flow system.

General

Name

This is a read-only label that is automatically generated by the software and which incorporates the name of the zone in which the chilled ceiling is located.

Type

There are two types of chilled ceiling available:

 

Tube Settings

Hydronic tubing inside diameter

This is the inside diameter (in m or in) of the tubes through which water is circulated. The inside diameter is used to determine the convective heat transfer from the water to the inside surface of the hydronic tubing.

Hydronic tubing length

This is the total length of embedded pipe (in m or ft). The length of the tube is used to determine the effectiveness of heat transfer from the fluid being circulated through the tubes and the tube/surface. Longer tubing lengths result in more heat that will be transferred to/from the radiant surface to the circulating fluid.

 

Note: With the constant flow chilled ceiling, this length is not autosizable.

Flow Settings

Rated flow rate

This is the maximum flow rate of water through the chilled ceiling (in m3/s or gal/min). This flow rate is held constant by the local component pump, but you have the option of varying this flow rate via a schedule (see Pump flow rate schedule below). The constant flow system will accept this flow rate and control the inlet temperature based on the control and water temperature schedules defined below.

Pump Settings

Pump flow rate schedule

This schedule modifies the maximum flow rate of water through the chilled ceiling (in m3/s only). Note that the values for this schedule must be between zero and one.

Rated pump head

This is the pump rated head (Pa or ftH20).

Rated power consumption

This is the pump rated power consumption (W).

Motor efficiency

This is the pump efficiency in decimal form (0 = 0%, 1 = 100%).

Fraction of motor inefficiencies to fluid stream

This is the fraction of the pump power lost to the fluid.

Control

Temperature control type

This option is only available when using the 2-Detailed HVAC Detailed HVAC Activity data

 

Along with setpoint (control) and water schedules, this setting allows you to specify how the chilled ceiling is to be controlled. The temperature denoted in the setpoint schedule can refer to one of five different temperatures: the zone mean air temperature, the zone mean radiant temperature, the zone operative temperature, the outdoor dry-bulb temperature, or the outdoor wet-bulb temperature. The choice of temperature is controlled by the temperature control type. Select from the following options:

 

 

Operative temperature for chilled ceiling controls is the average of Mean air temperature and Mean radiant temperature. See the control temperature schedule settings below for more information.

Cooling high water temperature schedule

This schedule specifies the high water temperature (in °C only) for the temperature control of a constant flow chilled ceiling. Water and control temperatures for cooling work together to provide a linear function that determines the water temperature sent to the chilled ceiling. The current control temperature (see Temperature control type above) is compared to the high and low control temperatures at the current time. If the control temperature is above the high temperature, then the inlet water temperature is set to the low water temperature. If the control temperature is below the low temperature, then system will be turned off and the water mass flow rate will be zero. If the control temperature is between the high and low value, then the inlet water temperature is linearly interpolated between the low and high water temperature values.

 

 

Cooling low water temperature schedule

This schedule specifies the low water temperature (in °C only) for the temperature control of the constant flow chilled ceiling. For more information on its interpretation, see Cooling high water temperature schedule above.

Cooling high control temperature schedule

This schedule specifies the high control temperature (in °C only) for the temperature control of a constant flow chilled ceiling. For more information on its interpretation, see Cooling high water temperature schedule above.

Cooling low control temperature schedule

This schedule specifies the low control temperature (in °C only) for the temperature control of a constant flow chilled ceiling. For more information on its interpretation, see Cooling high water temperature schedule above.

Condensation Control

Condensation control type

With a chilled ceiling, there is the possibility that condensation will occur on the surface that is being cooled. This is due to the fact that the surface temperature may drop below the dew-point temperature of the space. When this occurs, condensation on the surface will occur. There are two options for handling this situation:

 

 

If you choose the 2‑Off option, EnergyPlus will not do anything other than produce a warning message when condensation is predicted to occur. The simulation will simply proceed; no moisture will be removed from the zone air and there will be no adjustment of the surface temperature as a result of the condensation. When the 1‑Simple off option is selected, EnergyPlus will predict cases where condensation will occur and shut-off the chilled ceiling to avoid this situation. With this latter option, you also have the opportunity to adjust when the system will shut down. This is specified with the Condensation Control Dew-point Offset, below.

Condensation control dew-point offset

This offset temperature (in °C or °F) is only valid with the 1-Simple off condensation handling algorithm (see Condensation control type above). It establishes the difference between the calculated dew-point temperature of the space and the allowed surface temperature to which the surface can drop before the chilled ceiling shuts down. This setting can be any positive, negative, or zero value. When this parameter is zero, the chilled ceiling will shut down when the surface temperature drops to the dew-point temperature or below.

 

When this parameter is positive, the radiant system will shut down when the surface is this value above the dew-point temperature. This allows some extra safety to avoid condensation. When this parameter is negative, the chilled ceiling will shut down when the surface temperature is this value below the dew-point temperature. While not recommended, this strategy allows the user to simulate a situation where small amounts of condensation are tolerable.

 

Note: This value is an offset not an absolute temperature. A typical value might be 0-2°C.

Operation

Availability schedule

This schedule that denotes whether the component can run during a given hour. A schedule value greater than 0 (usually 1 is used) indicates that the unit is available and can be on during the hour. A value less than or equal to 0 (usually 0 is used) denotes that the unit is not available and must be off for the hour.