Buildings.Fluids.FixedResistances

Package with models for fixed flow resistances (pipes, diffusers etc.)

Package Content

NameDescription
Buildings.Fluids.FixedResistances.FixedResistanceDpM FixedResistanceDpM Fixed flow resistance with dp and m_flow as parameter
Buildings.Fluids.FixedResistances.LosslessPipe LosslessPipe Pipe with no flow friction and no heat transfer
Buildings.Fluids.FixedResistances.SplitterFixedResistanceDpM SplitterFixedResistanceDpM Flow splitter with fixed resistance at each port


Buildings.Fluids.FixedResistances.FixedResistanceDpM Buildings.Fluids.FixedResistances.FixedResistanceDpM

Fixed flow resistance with dp and m_flow as parameter

Buildings.Fluids.FixedResistances.FixedResistanceDpM

Information


This is a model of a resistance with a fixed flow coefficient k = m_flow/sqrt(dP).

Near the origin, the square root relation is regularized to ensure that the derivative is bounded.


Parameters

TypeNameDefaultDescription
replaceable package MediumPartialMediumMedium in the component
Booleanuse_dhfalseSet to true to specify hydraulic diameter
Lengthdh1Hydraulic diameter [m]
RealReC4000Reynolds number where transition to laminar starts
RealdeltaM0.3Fraction of nominal mass flow rate where transition to laminar occurs
Initialization
MassFlowRatem_flow Mass flow rate from port_a to port_b (m_flow > 0 is design flow direction) [kg/s]
Pressuredp Pressure difference between port_a and port_b [Pa]
Nominal Condition
MassFlowRatem0_flow Mass flow rate [kg/s]
Pressuredp0 Pressure [Pa]
Advanced
TempflowDirectionModelica_Fluid.Types.FlowDir...Unidirectional (port_a -> port_b) or bidirectional flow component
Booleanfrom_dptrue= true, use m_flow = f(dp) else dp = f(m_flow)
Booleanlinearizedfalse= true, use linear relation between m_flow and dp for any flow rate

Connectors

TypeNameDescription
FluidPort_aport_aFluid connector a (positive design flow direction is from port_a to port_b)
FluidPort_bport_bFluid connector b (positive design flow direction is from port_a to port_b)

Modelica definition

model FixedResistanceDpM 
  "Fixed flow resistance with dp and m_flow as parameter" 
  extends Buildings.BaseClasses.BaseIcon;
  extends Buildings.Fluids.BaseClasses.PartialResistance(
     final m_small_flow=if use_dh then 
        eta0*dh/4*Modelica.Constants.pi*ReC else 
        deltaM * m0_flow);
  import SI = Modelica.SIunits;
  parameter SI.MassFlowRate m0_flow "Mass flow rate";
  parameter SI.Pressure dp0(min=0) "Pressure";
  parameter Boolean use_dh = false "Set to true to specify hydraulic diameter";
  parameter SI.Length dh=1 "Hydraulic diameter";
  parameter Real ReC=4000 "Reynolds number where transition to laminar starts";
  parameter Real deltaM(min=0) = 0.3 
    "Fraction of nominal mass flow rate where transition to laminar occurs";
initial equation 
 if ( m_small_flow > m0_flow) then
   Modelica.Utilities.Streams.print("Warning: In FixedResistanceDpM, m0_flow is smaller than m_small_flow."
           + "\n"
           + "  m0_flow = " + realString(m0_flow) + "\n"
           + "  dh      = " + realString(dh) + "\n"
           + "  To fix, set dh < " +
                realString(     4*m0_flow/eta0/Modelica.Constants.pi/ReC) + "\n"
           + "  Suggested value: dh = " +
                realString(1/10*4*m0_flow/eta0/Modelica.Constants.pi/ReC));
 end if;
equation 
  if linearized then
   k = m0_flow / dp0;
  else
   k = m0_flow / sqrt(dp0);
 end if;
end FixedResistanceDpM;

Buildings.Fluids.FixedResistances.LosslessPipe Buildings.Fluids.FixedResistances.LosslessPipe

Pipe with no flow friction and no heat transfer

Buildings.Fluids.FixedResistances.LosslessPipe

Information


Model of a pipe with no flow resistance and no heat loss. This model can be used to replace a replaceable pipe model in flow legs in which no friction should be modeled, such as in the outlet port of a three way valve.


Parameters

TypeNameDefaultDescription
replaceable package MediumPartialMediumMedium in the component
Initialization
MassFlowRatem_flow Mass flow rate from port_a to port_b (m_flow > 0 is design flow direction) [kg/s]
Advanced
TempflowDirectionModelica_Fluid.Types.FlowDir...Unidirectional (port_a -> port_b) or bidirectional flow component

Connectors

TypeNameDescription
FluidPort_aport_aFluid connector a (positive design flow direction is from port_a to port_b)
FluidPort_bport_bFluid connector b (positive design flow direction is from port_a to port_b)

Modelica definition

model LosslessPipe "Pipe with no flow friction and no heat transfer" 
  extends Modelica_Fluid.Interfaces.PartialTwoPortTransport(final dp=0);
  extends Buildings.BaseClasses.BaseIcon;
end LosslessPipe;

Buildings.Fluids.FixedResistances.SplitterFixedResistanceDpM Buildings.Fluids.FixedResistances.SplitterFixedResistanceDpM

Flow splitter with fixed resistance at each port

Buildings.Fluids.FixedResistances.SplitterFixedResistanceDpM

Information


Model of a flow splitter (or mixer) with a fixed resistance in each flow leg.


Parameters

TypeNameDefaultDescription
replaceable package MediumPartialMediumFluid medium model
Booleanuse_dhfalseSet to true to specify hydraulic diameter
RealdeltaM0.3Fraction of nominal mass flow rate where transition to laminar occurs
Lengthdh[3]{1,1,1}Hydraulic diameter [m]
RealReC[3]{4000,4000,4000}Reynolds number where transition to laminar starts
Nominal Condition
MassFlowRatem0_flow[3] Mass flow rate [kg/s]
Pressuredp0[3] Pressure [Pa]
Advanced
Booleanfrom_dptrue= true, use m_flow = f(dp) else dp = f(m_flow)
TempflowDirectionModelica_Fluid.Types.FlowDir...Unidirectional (port_1 -> port_2) or bidirectional flow component
Booleanlinearizedfalse= true, use linear relation between m_flow and dp for any flow rate

Connectors

TypeNameDescription
FluidPort_bport_1 
FluidPort_bport_2 
FluidPort_bport_3 

Modelica definition

model SplitterFixedResistanceDpM 
  "Flow splitter with fixed resistance at each port" 
    extends Buildings.Fluids.BaseClasses.PartialThreeWayResistance(
      redeclare Buildings.Fluids.FixedResistances.FixedResistanceDpM res1(
         redeclare package Medium=Medium,
         from_dp=from_dp, m0_flow=m0_flow[1], dp0=dp0[1],
         ReC=ReC[1], dh=dh[1],
         linearized=linearized, deltaM=deltaM),
      redeclare Buildings.Fluids.FixedResistances.FixedResistanceDpM res2(
         redeclare package Medium=Medium,
         from_dp=from_dp, m0_flow=m0_flow[2], dp0=dp0[2],
         ReC=ReC[2], dh=dh[2],
         linearized=linearized, deltaM=deltaM),
      redeclare Buildings.Fluids.FixedResistances.FixedResistanceDpM res3(
         redeclare package Medium=Medium,
         from_dp=from_dp, m0_flow=m0_flow[3], dp0=dp0[3],
         ReC=ReC[3], dh=dh[3],
         linearized=linearized, deltaM=deltaM));
  
  
  parameter Boolean use_dh = false "Set to true to specify hydraulic diameter";
  
  parameter Modelica.SIunits.MassFlowRate[3] m0_flow(each min=0) 
    "Mass flow rate";
  parameter Modelica.SIunits.Pressure[3] dp0(each min=0) "Pressure";
  parameter Real deltaM(min=0) = 0.3 
    "Fraction of nominal mass flow rate where transition to laminar occurs";
  
  parameter Modelica.SIunits.Length[3] dh={1, 1, 1} "Hydraulic diameter";
  parameter Real[3] ReC={4000, 4000, 4000} 
    "Reynolds number where transition to laminar starts";
  parameter Boolean linearized = false 
    "= true, use linear relation between m_flow and dp for any flow rate";
end SplitterFixedResistanceDpM;

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