LCOV - code coverage report
Current view: top level - include/base - FlowModel1PhaseBase.h (source / functions) Hit Total Coverage
Test: idaholab/moose thermal_hydraulics: #32971 (54bef8) with base c6cf66 Lines: 2 2 100.0 %
Date: 2026-05-29 20:41:18 Functions: 2 2 100.0 %
Legend: Lines: hit not hit 

          Line data    Source code
       1             : //* This file is part of the MOOSE framework
       2             : //* https://mooseframework.inl.gov
       3             : //*
       4             : //* All rights reserved, see COPYRIGHT for full restrictions
       5             : //* https://github.com/idaholab/moose/blob/master/COPYRIGHT
       6             : //*
       7             : //* Licensed under LGPL 2.1, please see LICENSE for details
       8             : //* https://www.gnu.org/licenses/lgpl-2.1.html
       9             : 
      10             : #pragma once
      11             : 
      12             : #include "FlowModel.h"
      13             : 
      14             : /**
      15             :  * Base class for a flow model for a single-phase fluid
      16             :  */
      17             : class FlowModel1PhaseBase : public FlowModel
      18             : {
      19             : public:
      20             :   static InputParameters validParams();
      21             : 
      22             :   FlowModel1PhaseBase(const InputParameters & params);
      23             : 
      24             :   virtual void addVariables() override;
      25             :   virtual void addInitialConditions() override;
      26             :   virtual void addMooseObjects() override;
      27             : 
      28             :   /// Returns the solution variable names for the flow model
      29             :   virtual std::vector<VariableName> solutionVariableNames() const = 0;
      30             : 
      31             : protected:
      32             :   // Methods to get scaling factors for rhoA, rhouA, and rhoEA
      33             :   virtual Real getScalingFactorRhoA() const = 0;
      34             :   virtual Real getScalingFactorRhoUA() const = 0;
      35             :   virtual Real getScalingFactorRhoEA() const = 0;
      36             : 
      37             :   /// Returns true if all of the IC parameters are valid
      38             :   bool ICParametersAreValid() const;
      39             :   /// Adds an IC from a function
      40             :   void addFunctionIC(const VariableName & var_name, const FunctionName & function_name);
      41             :   // various ICs
      42             :   virtual void addRhoAIC();
      43             :   virtual void addRhoUAIC();
      44             :   virtual void addRhoEAIC() = 0;
      45             :   virtual void addVelocityIC();
      46             :   virtual void addDensityIC() = 0;
      47             :   virtual void addSpecificVolumeIC();
      48             :   virtual void addSpecificInternalEnergyIC();
      49             :   virtual void addSpecificTotalEnthalpyIC();
      50             : 
      51             :   /// Adds the kernels
      52             :   virtual void addKernels();
      53             :   /// Adds a time derivative kernel for the given variable if problem is transient
      54             :   void addTimeDerivativeKernelIfTransient(const VariableName & var_name);
      55             :   // various kernels
      56             :   virtual void addMomentumAreaGradientKernel();
      57             :   virtual void addMomentumFrictionKernel();
      58             :   virtual void addMomentumGravityKernel();
      59             :   virtual void addEnergyGravityKernel();
      60             : 
      61             :   /// Adds the DG kernels
      62             :   virtual void addDGKernels();
      63             :   virtual void addHeatConductionDGKernel();
      64             : 
      65             :   /// Adds the aux kernels
      66             :   virtual void addAuxKernels();
      67             :   // various aux kernels
      68             :   virtual void addPressureAux() = 0;
      69             :   virtual void addTemperatureAux() = 0;
      70             :   virtual void addVelocityAux();
      71             :   virtual void addDensityAux();
      72             :   virtual void addSpecificVolumeAux();
      73             :   virtual void addSpecificInternalEnergyAux();
      74             :   virtual void addSpecificTotalEnthalpyAux();
      75             : 
      76             :   /// Adds the functor materials
      77        2046 :   virtual void addFunctorMaterials() {}
      78             : 
      79             :   /// Adds materials to compute fluid properties
      80             :   virtual void addFluidPropertiesMaterials() = 0;
      81             : 
      82             :   /// Adds numerical flux user object
      83             :   virtual void addNumericalFluxUserObject() = 0;
      84             :   /// Adds RDG objects
      85             :   virtual void addRDGMooseObjects();
      86             :   /// Adds slope reconstruction material
      87             :   virtual void addSlopeReconstructionMaterial() = 0;
      88             :   /// Adds DG kernels
      89             :   virtual void addRDGAdvectionDGKernels() = 0;
      90             : 
      91             :   /// Adds post-processors
      92        2046 :   virtual void addPostprocessors() {}
      93             : 
      94             :   /// Slope reconstruction type for rDG
      95             :   const MooseEnum _rdg_slope_reconstruction;
      96             : 
      97             :   /// Numerical flux user object name
      98             :   const UserObjectName _numerical_flux_name;
      99             : };

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