Pressure |
Real |
Quantity: Pressure Unit: Pa Display Unit: bar |
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Modelica.Media.Examples Produces plot data for psychrometric charts |
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Modelica.Media.Examples.ReferenceAir Example for moist air |
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Modelica.Media.Examples.ReferenceAir Solve h = h_pT(p, T), s = s_pT(p, T) for T, if h or s is given |
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Modelica.Media.Examples.ReferenceAir Solve h = h_pTX(p, T, X), s = s_pTX(p, T, X) for T, if h or s is given |
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Modelica.Media.Examples.SolveOneNonlinearEquation Solve h = h_T(T), s = s_T(T) for T, if h or s is given for ideal gas NASA |
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Modelica.Media.Examples.SolveOneNonlinearEquation Inverse computation for incompressible media |
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Modelica.Media.Examples.SolveOneNonlinearEquation Solve h = h_TX(TX) for T, if h is given for ideal gas NASA |
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Modelica.Thermal.FluidHeatFlow.Examples Water pumping station |
Modelica.Fluid.Pipes.BaseClasses.FlowModels Base class for momentum balances in flow models |
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Modelica.Fluid.Machines.BaseClasses Base model for centrifugal pumps |
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Modelica.Fluid.Machines.BaseClasses.PumpMonitoring Monitor Net Positive Suction Head (NPSH) |
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Modelica.Fluid.Valves Valve for possibly vaporizing (almost) incompressible fluids, accounts for choked flow conditions |
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Modelica.Fluid.Valves.BaseClasses Base model for valves |
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Modelica.Fluid.Fittings Simple generic orifice defined by pressure loss coefficient and diameter (only for flow from port_a to port_b) |
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Modelica.Fluid.Fittings.BaseClasses.QuadraticTurbulent Generic pressure drop component with constant turbulent loss factor data and without an icon |
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BaseModelNonconstantCrossSectionArea Modelica.Fluid.Fittings.BaseClasses.QuadraticTurbulent Generic pressure drop component with constant turbulent loss factor data and without an icon, for non-constant cross section area |
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Modelica.Fluid.Interfaces Partial element transporting fluid between two ports without storage of mass or energy |
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Modelica.Fluid.Dissipation.PressureLoss.General Input record for function dp_idealGas_DP and dp_idealGas_MFLOW |
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dp_pressureLossCoefficient_IN_con Modelica.Fluid.Dissipation.PressureLoss.General Input record for function dp_pressureLossCoefficient_DP and dp_pressureLossCoefficient_MFLOW |
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Modelica.Fluid.Dissipation.PressureLoss.General Input record for function dp_volumeFlowRate_DP and dp_volumeFlowRate_MFLOW |
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Modelica.Fluid.Dissipation.PressureLoss.Orifice Input record for function dp_thickEdgedOverall_DP and dp_thickEdgedOverall_MFLOW |
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dp_severalGeometryOverall_IN_con Modelica.Fluid.Dissipation.PressureLoss.Valve Input record for function dp_severalGeometryOverall_DP and dp_severalGeometryOverall_MFLOW |
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Modelica.Fluid.Dissipation.Utilities.Records.General Base record for generic pressure loss function | ideal gas | mean density |
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Modelica.Fluid.Dissipation.Utilities.Records.General Base record for generic pressure loss function |
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NominalPressureLossLawDensity_con Modelica.Fluid.Dissipation.Utilities.Records.General Base record for generic pressure loss function |
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Modelica.Fluid.Dissipation.Utilities.Records.General Base record for generic pressure loss function | ideal gas | mean density |
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Modelica.Fluid.Dissipation.Utilities.Records.General Base record for generic pressure loss function |
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Modelica.Fluid.Dissipation.Utilities.Records.HeatTransfer Base record for two phase heat transfer coefficient |
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Modelica.Fluid.Dissipation.Utilities.Records.HeatTransfer Base record for two phase heat transfer coefficient |
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Modelica.Fluid.Dissipation.Utilities.Records.PressureLoss Input for pressure loss calculation |
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Modelica.Fluid.Dissipation.Utilities.Records.PressureLoss Input for diffuser |
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Modelica.Media.Examples.Utilities Simple pressure loss in pipe |
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Modelica.Media.Common.ThermoFluidSpecial |
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Modelica.Media.Common.ThermoFluidSpecial Thermodynamic base property data for all state models |
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Modelica.Media.Common.ThermoFluidSpecial Thermodynamic property data for density d and temperature T as dynamic states |
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Modelica.Media.Common Properties in the two phase region |
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Modelica.Media.Common Intermediate property data record for IF 97 |
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Modelica.Media.Common Derivatives of dimensionless Gibbs-function w.r.t. dimensionless pressure and temperature |
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Modelica.Media.Common Derivatives for fast inverse calculations of Helmholtz functions: p & h |
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Modelica.Media.Common Derivatives for fast inverse calculation of Helmholtz functions: p & s |
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Modelica.Media.Common Derivatives for fast inverse calculations of Helmholtz functions:p & T |
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Modelica.Media.Common Calculates all entries in Bridgmans tables if first seven variables given |
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Modelica.Media.Common Intermediate property data record |
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Modelica.Media.Common Derivatives of Gibbs function w.r.t. pressure and temperature |
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Modelica.Media.Incompressible.Common Fluid state record |
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Modelica.Media.R134a.Common Derivatives required for inversion of density and temperature functions w.r.t. pressure and enthalpy states |
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Modelica.Media.R134a.R134aData |
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Modelica.Media.R134a.R134aData |
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Modelica.Media.R134a.R134aData |
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Modelica.Media.Water.IF97_Utilities.BaseIF97 Constant IF97 data and region limits |
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Modelica.Media.Water.IF97_Utilities.BaseIF97 Critical point data |
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Modelica.Media.Water.IF97_Utilities.BaseIF97 Triple point data |
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Modelica.Thermal.FluidHeatFlow.Components Simple valve |
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Modelica.Thermal.FluidHeatFlow.Components Model of a tank under ambient pressure |
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Modelica.Thermal.FluidHeatFlow.Components Simple one-way valve |
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Modelica.Thermal.FluidHeatFlow.Sources Ambient with constant properties |
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Modelica.Thermal.FluidHeatFlow.Sources Defines absolute pressure level |
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Modelica.Thermal.FluidHeatFlow.Sources Enforces constant pressure increase |
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Modelica.Thermal.FluidHeatFlow.Sources Model of an ideal pump |
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Modelica.Thermal.FluidHeatFlow.BaseClasses Partial model of two port |
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Modelica.Thermal.FluidHeatFlow.BaseClasses Simple friction model |
Modelica.Units.SI |
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Modelica.Units.SI |