Buildings.Applications.BaseClasses.Equipment
Equipment models for systems in applications package
Information
Package with equipment models for Buildings.Applications.
Extends from Modelica.Icons.VariantsPackage (Icon for package containing variants).
Package Content
Name | Description |
---|---|
ElectricChillerParallel | Multiple identical electric chillers |
FlowMachine_m | Identical m_flow controlled pumps |
FlowMachine_y | Identical speed controlled flow machines |
Validation | Collection of validation models |
Buildings.Applications.BaseClasses.Equipment.ElectricChillerParallel
Multiple identical electric chillers
Information
This model implements a chiller parallel with num
identical chillers. For the chiller model please see
Buildings.Fluid.Chillers.ElectricEIR.
Note that although the chillers have identical nominal conditions, they can have different
performance curves specified in performance data per
.
Extends from Buildings.Applications.DataCenters.ChillerCooled.Equipment.BaseClasses.PartialParallelElectricEIR (Partial model for electric chiller parallel).
Parameters
Type | Name | Default | Description |
---|---|---|---|
replaceable package Medium1 | PartialMedium | Medium 1 in the component | |
replaceable package Medium2 | PartialMedium | Medium 2 in the component | |
Integer | num | 2 | Number of equipment |
Generic | per[num] | redeclare parameter Building... | Performance data |
Nominal condition | |||
MassFlowRate | m1_flow_nominal | Nominal mass flow rate [kg/s] | |
MassFlowRate | m2_flow_nominal | Nominal mass flow rate [kg/s] | |
PressureDifference | dp1_nominal | Pressure difference [Pa] | |
PressureDifference | dp2_nominal | Pressure difference [Pa] | |
Two-way valve | |||
CvTypes | CvData | Buildings.Fluid.Types.CvType... | Selection of flow coefficient |
Real | Kv[numVal] | Kv (metric) flow coefficient [m3/h/(bar)^(1/2)] | |
Real | Cv[numVal] | Cv (US) flow coefficient [USG/min/(psi)^(1/2)] | |
Area | Av[numVal] | Av (metric) flow coefficient [m2] | |
PressureDifference | dpValve_nominal[numVal] | fill(6000, numVal) | Nominal pressure drop of fully open valve, used if CvData=Buildings.Fluid.Types.CvTypes.OpPoint [Pa] |
Real | l[2] | {0.0001,0.0001} | Valve leakage, l=Kv(y=0)/Kv(y=1) |
Assumptions | |||
Boolean | allowFlowReversal1 | true | = false to simplify equations, assuming, but not enforcing, no flow reversal for medium 1 |
Boolean | allowFlowReversal2 | true | = false to simplify equations, assuming, but not enforcing, no flow reversal for medium 2 |
Advanced | |||
MassFlowRate | m1_flow_small | 1E-4*abs(m1_flow_nominal) | Small mass flow rate for regularization of zero flow [kg/s] |
MassFlowRate | m2_flow_small | 1E-4*abs(m2_flow_nominal) | Small mass flow rate for regularization of zero flow [kg/s] |
Diagnostics | |||
Boolean | show_T | false | = true, if actual temperature at port is computed |
Two-way valve | |||
Density | rhoStd[numVal] | {Medium1.density_pTX(101325,... | Inlet density for which valve coefficients are defined [kg/m3] |
Flow resistance | |||
Medium 1 | |||
Boolean | from_dp1 | false | = true, use m_flow = f(dp) else dp = f(m_flow) |
Boolean | linearizeFlowResistance1 | false | = true, use linear relation between m_flow and dp for any flow rate |
Real | deltaM1 | 0.1 | Fraction of nominal flow rate where flow transitions to laminar |
Medium 2 | |||
Boolean | from_dp2 | false | = true, use m_flow = f(dp) else dp = f(m_flow) |
Boolean | linearizeFlowResistance2 | false | = true, use linear relation between m_flow and dp for any flow rate |
Real | deltaM2 | 0.1 | Fraction of nominal flow rate where flow transitions to laminar |
Dynamics | |||
Filtered opening | |||
Boolean | use_inputFilter | true | = true, if opening is filtered with a 2nd order CriticalDamping filter |
Time | riseTimeValve | 30 | Rise time of the filter (time to reach 99.6 % of an opening step) [s] |
Init | initValve | Modelica.Blocks.Types.Init.I... | Type of initialization (no init/steady state/initial state/initial output) |
Real | yValve_start[numFil] | fill(1, numFil) | Initial value of output:0-closed, 1-fully opened |
Nominal condition | |||
Time | tau1 | 30 | Time constant at nominal flow in chillers [s] |
Time | tau2 | 30 | Time constant at nominal flow in chillers [s] |
Conservation equations | |||
Dynamics | energyDynamics | Modelica.Fluid.Types.Dynamic... | Type of energy balance: dynamic (3 initialization options) or steady state |
Initialization | |||
Medium 1 | |||
AbsolutePressure | p1_start | Medium1.p_default | Start value of pressure [Pa] |
Temperature | T1_start | Medium1.T_default | Start value of temperature [K] |
MassFraction | X1_start[Medium1.nX] | Medium1.X_default | Start value of mass fractions m_i/m [kg/kg] |
ExtraProperty | C1_start[Medium1.nC] | fill(0, Medium1.nC) | Start value of trace substances |
ExtraProperty | C1_nominal[Medium1.nC] | fill(1E-2, Medium1.nC) | Nominal value of trace substances. (Set to typical order of magnitude.) |
Medium 2 | |||
AbsolutePressure | p2_start | Medium2.p_default | Start value of pressure [Pa] |
Temperature | T2_start | Medium2.T_default | Start value of temperature [K] |
MassFraction | X2_start[Medium2.nX] | Medium2.X_default | Start value of mass fractions m_i/m [kg/kg] |
ExtraProperty | C2_start[Medium2.nC] | fill(0, Medium2.nC) | Start value of trace substances |
ExtraProperty | C2_nominal[Medium2.nC] | fill(1E-2, Medium2.nC) | Nominal value of trace substances. (Set to typical order of magnitude.) |
Connectors
Type | Name | Description |
---|---|---|
FluidPort_a | port_a1 | Fluid connector a1 (positive design flow direction is from port_a1 to port_b1) |
FluidPort_b | port_b1 | Fluid connector b1 (positive design flow direction is from port_a1 to port_b1) |
FluidPort_a | port_a2 | Fluid connector a2 (positive design flow direction is from port_a2 to port_b2) |
FluidPort_b | port_b2 | Fluid connector b2 (positive design flow direction is from port_a2 to port_b2) |
input BooleanInput | on[num] | Set to true to enable equipment, or false to disable equipment |
input RealInput | TSet | Set point for leaving water temperature [K] |
output RealOutput | P[num] | Electric power consumed by chiller compressor [W] |
Modelica definition
Buildings.Applications.BaseClasses.Equipment.FlowMachine_m
Identical m_flow controlled pumps
Information
This model implements a parallel of identical pumps with m_flow
being controlled.
The number can be specified by setting a value of num
.
The shutoff valves are used to avoid circulating flow among pumps.
Extends from Buildings.Applications.DataCenters.ChillerCooled.Equipment.BaseClasses.PartialPumpParallel (Partial model for pump parallel).
Parameters
Type | Name | Default | Description |
---|---|---|---|
replaceable package Medium | PartialMedium | Medium in the component | |
Generic | per[num] | redeclare parameter Building... | Record with performance data |
Integer | num | 2 | The number of pumps |
Real | threshold | 0.05 | Hysteresis threshold |
Nominal condition | |||
MassFlowRate | m_flow_nominal | Nominal mass flow rate [kg/s] | |
PressureDifference | dpValve_nominal | Nominal pressure drop of fully open valve, used if CvData=Buildings.Fluid.Types.CvTypes.OpPoint [Pa] | |
Flow Coefficient | |||
CvTypes | CvData | Buildings.Fluid.Types.CvType... | Selection of flow coefficient |
Real | Kv | Kv (metric) flow coefficient [m3/h/(bar)^(1/2)] | |
Real | Cv | Cv (US) flow coefficient [USG/min/(psi)^(1/2)] | |
Area | Av | Av (metric) flow coefficient [m2] | |
Pressure-flow linearization | |||
Real | deltaM | 0.02 | Fraction of nominal flow rate where linearization starts, if y=1 |
Pump | |||
Boolean | addPowerToMedium | false | Set to false to avoid any power (=heat and flow work) being added to medium (may give simpler equations) |
Two-way valve | |||
Real | l | 0.0001 | Valve leakage, l=Kv(y=0)/Kv(y=1) |
Assumptions | |||
Boolean | allowFlowReversal | true | = false to simplify equations, assuming, but not enforcing, no flow reversal |
Advanced | |||
MassFlowRate | m_flow_small | 1E-4*abs(m_flow_nominal) | Small mass flow rate for regularization of zero flow [kg/s] |
Diagnostics | |||
Boolean | show_T | false | = true, if actual temperature at port is computed |
Nominal condition | |||
Density | rhoStd | Medium.density_pTX(101325, 2... | Inlet density for which valve coefficients are defined [kg/m3] |
Dynamics | |||
Pump | |||
Time | tau | 1 | Time constant at nominal flow (if energyDynamics <> SteadyState) [s] |
Boolean | use_inputFilter | true | = true, if speed is filtered with a 2nd order CriticalDamping filter |
Time | riseTimePump | 30 | Rise time of the filter (time to reach 99.6 % of the speed) [s] |
Init | init | Modelica.Blocks.Types.Init.I... | Type of initialization (no init/steady state/initial state/initial output) |
Real | yPump_start[num] | fill(0, num) | Initial value of pump signals |
Valve | |||
Time | riseTimeValve | riseTimePump | Rise time of the filter (time to become 99.6 % open) [s] |
Real | yValve_start[num] | fill(1, num) | Initial value of valve signals |
Conservation equations | |||
Dynamics | energyDynamics | Modelica.Fluid.Types.Dynamic... | Type of energy balance: dynamic (3 initialization options) or steady state |
Initialization | |||
AbsolutePressure | p_start | Medium.p_default | Start value of pressure [Pa] |
Temperature | T_start | Medium.T_default | Start value of temperature [K] |
MassFraction | X_start[Medium.nX] | Medium.X_default | Start value of mass fractions m_i/m [kg/kg] |
ExtraProperty | C_start[Medium.nC] | fill(0, Medium.nC) | Start value of trace substances |
ExtraProperty | C_nominal[Medium.nC] | fill(1E-2, Medium.nC) | Nominal value of trace substances. (Set to typical order of magnitude.) |
Flow resistance | |||
Boolean | from_dp | false | = true, use m_flow = f(dp) else dp = f(m_flow) |
Boolean | linearizeFlowResistance | false | = true, use linear relation between m_flow and dp for any flow rate |
Connectors
Type | Name | Description |
---|---|---|
FluidPort_a | port_a | Fluid connector a (positive design flow direction is from port_a to port_b) |
FluidPort_b | port_b | Fluid connector b (positive design flow direction is from port_a to port_b) |
input RealInput | u[num] | Continuous input signal for the flow machine [1] |
output RealOutput | P[num] | Electrical power consumed by the pumps [W] |
Modelica definition
Buildings.Applications.BaseClasses.Equipment.FlowMachine_y
Identical speed controlled flow machines
Information
This model implements a parallel of identical pumps with speed being controlled.
The number can be specified by setting a value of num
.
The shutoff valves are used to avoid circulating flow among pumps.
Extends from Buildings.Applications.DataCenters.ChillerCooled.Equipment.BaseClasses.PartialPumpParallel (Partial model for pump parallel).
Parameters
Type | Name | Default | Description |
---|---|---|---|
replaceable package Medium | PartialMedium | Medium in the component | |
Generic | per[num] | redeclare parameter Building... | Record with performance data |
Integer | num | 2 | The number of pumps |
Real | threshold | 0.05 | Hysteresis threshold |
Nominal condition | |||
MassFlowRate | m_flow_nominal | Nominal mass flow rate [kg/s] | |
PressureDifference | dpValve_nominal | Nominal pressure drop of fully open valve, used if CvData=Buildings.Fluid.Types.CvTypes.OpPoint [Pa] | |
Flow Coefficient | |||
CvTypes | CvData | Buildings.Fluid.Types.CvType... | Selection of flow coefficient |
Real | Kv | Kv (metric) flow coefficient [m3/h/(bar)^(1/2)] | |
Real | Cv | Cv (US) flow coefficient [USG/min/(psi)^(1/2)] | |
Area | Av | Av (metric) flow coefficient [m2] | |
Pressure-flow linearization | |||
Real | deltaM | 0.02 | Fraction of nominal flow rate where linearization starts, if y=1 |
Pump | |||
Boolean | addPowerToMedium | false | Set to false to avoid any power (=heat and flow work) being added to medium (may give simpler equations) |
Two-way valve | |||
Real | l | 0.0001 | Valve leakage, l=Kv(y=0)/Kv(y=1) |
Assumptions | |||
Boolean | allowFlowReversal | true | = false to simplify equations, assuming, but not enforcing, no flow reversal |
Advanced | |||
MassFlowRate | m_flow_small | 1E-4*abs(m_flow_nominal) | Small mass flow rate for regularization of zero flow [kg/s] |
Diagnostics | |||
Boolean | show_T | false | = true, if actual temperature at port is computed |
Nominal condition | |||
Density | rhoStd | Medium.density_pTX(101325, 2... | Inlet density for which valve coefficients are defined [kg/m3] |
Dynamics | |||
Pump | |||
Time | tau | 1 | Time constant at nominal flow (if energyDynamics <> SteadyState) [s] |
Boolean | use_inputFilter | true | = true, if speed is filtered with a 2nd order CriticalDamping filter |
Time | riseTimePump | 30 | Rise time of the filter (time to reach 99.6 % of the speed) [s] |
Init | init | Modelica.Blocks.Types.Init.I... | Type of initialization (no init/steady state/initial state/initial output) |
Real | yPump_start[num] | fill(0, num) | Initial value of pump signals |
Valve | |||
Time | riseTimeValve | riseTimePump | Rise time of the filter (time to become 99.6 % open) [s] |
Real | yValve_start[num] | fill(1, num) | Initial value of valve signals |
Conservation equations | |||
Dynamics | energyDynamics | Modelica.Fluid.Types.Dynamic... | Type of energy balance: dynamic (3 initialization options) or steady state |
Initialization | |||
AbsolutePressure | p_start | Medium.p_default | Start value of pressure [Pa] |
Temperature | T_start | Medium.T_default | Start value of temperature [K] |
MassFraction | X_start[Medium.nX] | Medium.X_default | Start value of mass fractions m_i/m [kg/kg] |
ExtraProperty | C_start[Medium.nC] | fill(0, Medium.nC) | Start value of trace substances |
ExtraProperty | C_nominal[Medium.nC] | fill(1E-2, Medium.nC) | Nominal value of trace substances. (Set to typical order of magnitude.) |
Flow resistance | |||
Boolean | from_dp | false | = true, use m_flow = f(dp) else dp = f(m_flow) |
Boolean | linearizeFlowResistance | false | = true, use linear relation between m_flow and dp for any flow rate |
Connectors
Type | Name | Description |
---|---|---|
FluidPort_a | port_a | Fluid connector a (positive design flow direction is from port_a to port_b) |
FluidPort_b | port_b | Fluid connector b (positive design flow direction is from port_a to port_b) |
input RealInput | u[num] | Continuous input signal for the flow machine [1] |
output RealOutput | P[num] | Electrical power consumed by the pumps [W] |