Buildings.Fluid.HeatPumps.BaseClasses
Package with base classes for Buildings.Fluid.HeatPumps
Information
This package contains base classes that are used to construct the models in Buildings.Fluid.HeatPumps.
Extends from Modelica.Icons.BasesPackage (Icon for packages containing base classes).
Package Content
Name | Description |
---|---|
PartialWaterToWater | Partial model for water to water heat pumps and chillers |
Buildings.Fluid.HeatPumps.BaseClasses.PartialWaterToWater
Partial model for water to water heat pumps and chillers
Information
Partial model for a water to water heat pump, as detailed in Jin (2002). The model for the comrpessor is a partial model and needs to be replaced by one of the compressor models in Buildings.Fluid.Chillers.Compressors.
References
H. Jin. Parameter estimation based models of water source heat pumps. PhD Thesis. Oklahoma State University. Stillwater, Oklahoma, USA. 2012.
Extends from Buildings.Fluid.Interfaces.PartialFourPortInterface (Partial model transporting fluid between two ports without storing mass or energy), Buildings.Fluid.Interfaces.FourPortFlowResistanceParameters (Parameters for flow resistance for models with four ports).
Parameters
Type | Name | Default | Description |
---|---|---|---|
replaceable package Medium1 | PartialMedium | Medium 1 in the component | |
replaceable package Medium2 | PartialMedium | Medium 2 in the component | |
replaceable package ref | Buildings.Media.Refrigerants... | Refrigerant in the component | |
Boolean | enable_variable_speed | true | Set to true to allow modulating of compressor speed |
Real | scaling_factor | 1.0 | Scaling factor for heat pump capacity |
ThermalConductance | UACon | Thermal conductance of condenser [W/K] | |
ThermalConductance | UAEva | Thermal conductance of evaporator [W/K] | |
PartialCompressor | com | redeclare Buildings.Fluid.He... | Compressor |
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] | |
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] |
Boolean | homotopyInitialization | true | = true, use homotopy method |
Diagnostics | |||
Boolean | show_T | false | = true, if actual temperature at port is computed |
Flow resistance | |||
Medium 1 | |||
Boolean | computeFlowResistance1 | dp1_nominal > 0 | =true, compute flow resistance. Set to false to assume no friction |
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 | computeFlowResistance2 | dp2_nominal > 0 | =true, compute flow resistance. Set to false to assume no friction |
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 | |||
Condenser | |||
Time | tau1 | 60 | Time constant at nominal flow rate (used if energyDynamics1 <> Modelica.Fluid.Types.Dynamics.SteadyState) [s] |
Temperature | T1_start | Medium1.T_default | Initial or guess value of set point [K] |
Evaporator | |||
Time | tau2 | 60 | Time constant at nominal flow rate (used if energyDynamics2 <> Modelica.Fluid.Types.Dynamics.SteadyState) [s] |
Temperature | T2_start | Medium2.T_default | Initial or guess value of set point [K] |
Evaporator and condenser | |||
Dynamics | energyDynamics | Modelica.Fluid.Types.Dynamic... | Type of energy balance: dynamic (3 initialization options) or steady state |
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) |
replaceable package ref | Refrigerant in the component | |
input RealInput | y | Modulating signal for compressor frequency, equal to 1 at full load condition [1] |
input IntegerInput | stage | Current stage of the heat pump, equal to 1 at full load condition |
output RealOutput | QCon_flow | Actual heating heat flow rate added to fluid 1 [W] |
output RealOutput | P | Electric power consumed by compressor [W] |
output RealOutput | QEva_flow | Actual cooling heat flow rate removed from fluid 2 [W] |