Buildings.Templates.AirHandlersFans.Validation.UserProject.Data
Package with classes for storing system parameters
Information
This package provides records for design and operating parameters that are used for validation purposes.
Extends from Modelica.Icons.MaterialPropertiesPackage (Icon for package containing property classes).
Package Content
| Name | Description |
|---|---|
 AllSystems
|
Top-level (whole building) system parameters |
Buildings.Templates.AirHandlersFans.Validation.UserProject.Data.AllSystems
Top-level (whole building) system parameters
Information
This class provides the set of sizing and operating parameters for the whole HVAC system. It is aimed for validation purposes only.
Extends from Buildings.Templates.Data.AllSystems (Top-level (whole building) system parameters).
Parameters
| Type | Name | Default | Description |
|---|---|---|---|
| Units | sysUni | Buildings.Templates.Types.Un... | Unit system |
| EnergyStandard | stdEne | Buildings.Controls.OBC.ASHRA... | Energy standard |
| VentilationStandard | stdVen | Buildings.Controls.OBC.ASHRA... | Ventilation standard |
| ASHRAEClimateZone | ashCliZon | Buildings.Controls.OBC.ASHRA... | ASHRAE climate zone |
| Title24ClimateZone | tit24CliZon | California Title 24 climate zone | |
| Air handlers and fans | |||
| VAVMultiZone | VAV_1 | VAV_1(id="VAV_1", damOut(dp_... | Parameters for system VAV_1 |
Modelica definition
class AllSystems "Top-level (whole building) system parameters"
extends Buildings.Templates.Data.AllSystems(
sysUni=Buildings.Templates.Types.Units.SI,
stdEne=Buildings.Controls.OBC.ASHRAE.G36.Types.EnergyStandard.ASHRAE90_1,
stdVen=Buildings.Controls.OBC.ASHRAE.G36.Types.VentilationStandard.ASHRAE62_1,
ashCliZon=Buildings.Controls.OBC.ASHRAE.G36.Types.ASHRAEClimateZone.Zone_3B);
parameter Buildings.Templates.AirHandlersFans.Data.VAVMultiZone VAV_1(
id="VAV_1",
damOut(dp_nominal=15),
damOutMin(dp_nominal=15),
damRel(dp_nominal=15),
damRet(dp_nominal=15),
mOutMin_flow_nominal=0.2,
fanSup(m_flow_nominal=1, dp_nominal=500),
fanRel(m_flow_nominal=1, dp_nominal=200),
fanRet(m_flow_nominal=1, dp_nominal=200),
coiHeaPre(
cap_nominal=1e4,
dpAir_nominal=100,
dpWat_nominal=0.5e4,
dpValve_nominal=0.3e4,
mWat_flow_nominal=1e4/4186/10,
TAirEnt_nominal=273.15,
TWatEnt_nominal=50 + 273.15),
coiHeaReh(
cap_nominal=1e4,
dpAir_nominal=100,
dpWat_nominal=0.5e4,
dpValve_nominal=0.3e4,
mWat_flow_nominal=1e4/4186/10,
TAirEnt_nominal=273.15,
TWatEnt_nominal=50 + 273.15),
coiCoo(
cap_nominal=1e4,
dpAir_nominal=100,
dpWat_nominal=3e4,
dpValve_nominal=2e4,
mWat_flow_nominal=1e4/4186/5,
TAirEnt_nominal=30 + 273.15,
TWatEnt_nominal=7 + 273.15,
wAirEnt_nominal=0.012),
ctl(
VOutUnc_flow_nominal=0.4,
VOutTot_flow_nominal=0.5,
VOutAbsMin_flow_nominal=0.3,
VOutMin_flow_nominal=0.4,
dpDamOutMinAbs=10,
dpDamOutMin_nominal=15,
pAirSupSet_rel_max=500,
pAirRetSet_rel_min=10,
pAirRetSet_rel_max=40,
yFanSup_min=0.1,
yFanRel_min=0.1,
yFanRet_min=0.1,
dVFanRet_flow=0.1,
TAirSupSet_min=12+273.15,
TAirSupSet_max=18+273.15,
TOutRes_min=16+273.15,
TOutRes_max=21+273.15))
"Parameters for system VAV_1";
end AllSystems;