PartialGenericPipeFlowGenericPipeFlow: Pipe flow pressure loss and gravity with replaceable WallFriction package |
This information is part of the Modelica Standard Library maintained by the Modelica Association.
This model describes pressure losses due to wall friction in a pipe and due to gravity. Correlations of different complexity and validity can be selected via the replaceable package WallFriction (see parameter menu below). The details of the pipe wall friction model are described in the UsersGuide. Basically, different variants of the equation
dp = λ(Re,Δ)*(L/D)*ρ*v*|v|/2.
By default, the correlations are computed with media data at the actual time instant. In order to reduce non-linear equation systems, the parameters use_mu_nominal and use_rho_nominal provide the option to compute the correlations with constant media values at the desired operating point. This might speed-up the simulation and/or might give a more robust simulation.
m |
Value: n - 1 Type: Integer Description: Number of flow segments |
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n |
Value: 2 Type: Integer Description: Number of discrete flow volumes |
nParallel |
Value: Type: Real Description: Number of identical parallel flow devices |
g |
Value: system.g Type: Acceleration (m/s²) Description: Constant gravity acceleration |
allowFlowReversal |
Value: system.allowFlowReversal Type: Boolean Description: = true, if flow reversal is enabled, otherwise restrict flow to design direction (states[1] -> states[n+1]) |
momentumDynamics |
Value: system.momentumDynamics Type: Dynamics Description: Formulation of momentum balance |
m_flow_start |
Value: system.m_flow_start Type: MassFlowRate (kg/s) Description: Start value of mass flow rates |
p_a_start |
Value: Type: AbsolutePressure (Pa) Description: Start value for p[1] at design inflow |
p_b_start |
Value: Type: AbsolutePressure (Pa) Description: Start value for p[n+1] at design outflow |
useUpstreamScheme |
Value: true Type: Boolean Description: = false to average upstream and downstream properties across flow segments |
use_Ib_flows |
Value: momentumDynamics <> Types.Dynamics.SteadyState Type: Boolean Description: = true to consider differences in flow of momentum through boundaries |
Re_turbulent |
Value: 4000 Type: ReynoldsNumber Description: Start of turbulent regime, depending on type of flow device |
show_Res |
Value: false Type: Boolean Description: = true, if Reynolds numbers are included for plotting |
from_dp |
Value: momentumDynamics >= Types.Dynamics.SteadyStateInitial Type: Boolean Description: = true, use m_flow = f(dp), otherwise dp = f(m_flow) |
dp_nominal |
Value: Type: AbsolutePressure (Pa) Description: Nominal pressure loss (only for nominal models) |
m_flow_nominal |
Value: Type: MassFlowRate (kg/s) Description: Nominal mass flow rate |
m_flow_small |
Value: if system.use_eps_Re then system.eps_m_flow * m_flow_nominal else system.m_flow_small Type: MassFlowRate (kg/s) Description: Within regularization if |m_flows| < m_flow_small (may be wider for large discontinuities in static head) |
pathLengths |
Type: Length[m] (m) Description: Lengths along flow path |
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states |
Type: ThermodynamicState[n] Description: Thermodynamic states along design flow |
vs |
Type: Velocity[n] (m/s) Description: Mean velocities of fluid flow |
crossAreas |
Type: Area[n] (m²) Description: Cross flow areas at segment boundaries |
dimensions |
Type: Length[n] (m) Description: Characteristic dimensions for fluid flow (diameters for pipe flow) |
roughnesses |
Type: Roughness[n] (m) Description: Average height of surface asperities |
dheights |
Type: Length[n - 1] (m) Description: Height(states[2:n]) - Height(states[1:n-1]) |
pathLengths_internal |
Type: Length[n - 1] (m) Description: pathLengths used internally; to be defined by extending class |
Res_turbulent_internal |
Default Value: Re_turbulent * ones(n - 1) Type: ReynoldsNumber[n - 1] Description: Re_turbulent used internally; to be defined by extending class |
system |
Type: System Description: System properties |
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states |
Type: ThermodynamicState[n] Description: Thermodynamic states along design flow |
Modelica.Fluid.Pipes.BaseClasses.FlowModels DetailedPipeFlow: Detailed characteristic for laminar and turbulent flow |
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Modelica.Fluid.Pipes.BaseClasses.FlowModels TurbulentPipeFlow: Quadratic turbulent flow in circular tubes (using mu to regularize laminar region) |
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Modelica.Fluid.Pipes.BaseClasses.FlowModels NominalTurbulentPipeFlow: Quadratic turbulent flow in circular tubes for given nominal values |