[General] majorVersion = 1 # Major file version. Do not edit this. minorVersion = 0 # Minor file version. Do not edit this. fileType = modelDef # File type. Do not edit this. [Files] networkFile = NetworkDefinition.ini# #Name and location of the network file crossLocFile = CrossSectionLocations.ini# Name and location of the file containing the locations of the cross sections crossDefFile = CrossSectionDefinitions.ini# Name and location of the file containing the definitions of the cross sections structureFile = Structures.ini # Name and location of the structure file obsPointsFile = ObservationPoints.ini# Name and location of the observation points file initialWaterLevelFile = InitialWaterLevel.ini# Name and location of the file containing the spatial definition of the initial water level initialWaterDepthFile = InitialWaterDepth.ini# Name and location of the file containing the spatial definition of the initial water depth initialDischargeFile = InitialDischarge.ini# Name and location of the file containing the spatial definition of the initial discharge initialSalinityFile = InitialSalinity.ini # Name and location of the file containing the spatial definition of the initial salinity initialTemperatureFile= InitialTemperature.ini# Name and location of the file containing the spatial definition of the initial temperature windShieldingFile = WindShielding.ini # Name and location of the file containing the spatial definition of the wind shielding roughnessFile = roughness-Main.ini # Name and location of the file containing the roughness data boundLocFile = BoundaryLocations.ini# Name and location of the file containing the boundary locations latDischargeLocFile = LateralDischargeLocations.ini# Name and location of the file containing the lateral discharge locations boundCondFile = BoundaryConditions.bc# Name and location of the file containing the boundary conditions and lateral discharges sobekSimIniFile = SobekSim.ini # Name of the sobek sim ini file containing also model parameter which are not in here. Will be phased out later retentionFile = Retention.ini # Name of the retention ini file containing the values of the retention areas logFile = sobek.log # Name of the log file [ResultsNodes] Density = None # GridpointsOnBranches Output Density EffectiveBackRad = None # GridpointsOnBranches Output Effective back radiation HeatLossConv = None # GridpointsOnBranches Output Heat loss due to convection HeatLossEvap = None # GridpointsOnBranches Output Heat loss due to evaporation HeatLossForcedConv = None # GridpointsOnBranches Output Heat loss due to forced convection HeatLossForcedEvap = None # GridpointsOnBranches Output Heat loss due to forced evaporation HeatLossFreeConv = None # GridpointsOnBranches Output Heat loss due to free convection HeatLossFreeEvap = None # GridpointsOnBranches Output Heat loss due to free evaporation LateralAtNodes = None # GridpointsOnBranches Output Lateral at nodes NegativeDepth = None # GridpointsOnBranches Output Negative depth NetSolarRad = None # GridpointsOnBranches Output Net incident solar radiation NoIteration = None # GridpointsOnBranches Output Number of iterations Lateral1D2D = None # GridpointsOnBranches Output Lateral Discharge from 2d to 1d RadFluxClearSky = None # GridpointsOnBranches Output Radiation flux for clear sky condition Salinity = None # GridpointsOnBranches Output Salt concentration Temperature = None # GridpointsOnBranches Output Temperature TotalArea = None # GridpointsOnBranches Output Total area TotalHeatFlux = None # GridpointsOnBranches Output Total heat flux TotalWidth = None # GridpointsOnBranches Output Total width Volume = None # GridpointsOnBranches Output Water volume WaterDepth = Current # GridpointsOnBranches Output Water depth WaterLevel = Current # GridpointsOnBranches Output Water level [ResultsBranches] AreaFP1 = None # ReachSegElmSet Output FloodPlain1 Flow area AreaFP2 = None # ReachSegElmSet Output FloodPlain2 Flow area AreaMain = None # ReachSegElmSet Output Main Flow area ChezyFP1 = None # ReachSegElmSet Output FloodPlain1 Chezy values ChezyFP2 = None # ReachSegElmSet Output FloodPlain2 Chezy values ChezyMain = None # ReachSegElmSet Output Main Chezy values Discharge = Current # ReachSegElmSet Output Discharge DischargeFP1 = None # ReachSegElmSet Output FloodPlain1 Discharge DischargeFP2 = None # ReachSegElmSet Output FloodPlain2 Discharge DischargeMain = None # ReachSegElmSet Output Main Discharge FlowArea = Current # ReachSegElmSet Output Flow area FlowChezy = None # ReachSegElmSet Output Chezy values FlowConv = None # ReachSegElmSet Output Conveyance FlowHydrad = None # ReachSegElmSet Output Hydraulic radius Froude = None # ReachSegElmSet Output Froude number HydradFP1 = None # ReachSegElmSet Output FloodPlain1 Hydraulic radius HydradFP2 = None # ReachSegElmSet Output FloodPlain2 Hydraulic radius HydradMain = None # ReachSegElmSet Output Main Hydraulic radius TimeStepEstimation = None # ReachSegElmSet Output Time step estimation Velocity = Current # ReachSegElmSet Output Velocity WaterLevelGradient = None # ReachSegElmSet Output Water level gradient WidthFP1 = None # ReachSegElmSet Output FloodPlain1 Flow width WidthFP2 = None # ReachSegElmSet Output FloodPlain2 Flow width WidthMain = None # ReachSegElmSet Output Main Flow width Dispersion = None # GridpointsOnBranches Output Salt dispersion [ResultsStructures] CrestLevel = None # Structures Input, Output Crest level (s) CrestWidth = None # Structures Input, Output Crest width (s) Discharge = None # Structures Output Discharge (s) FlowArea = None # Structures Output Flow area (s) GateLowerEdgeLevel = None # Structures Input, Output Gate lower edge level (s) GateOpeningHeight = None # Structures Input, Output Opening height (s) Head = None # Structures Output Head Difference (s) PressureDifference = None # Structures Output Pressure difference (s) ValveOpening = None # Structures Input, Output Valve opening (s) Velocity = None # Structures Output Velocity (s) WaterLevelAtCrest = None # Structures Output Water level at crest (s) WaterlevelDown = None # Structures Output Water level down (s) WaterlevelUp = None # Structures Output Water level up (s) [ResultsPumps] PumpResults = None # Pumps Output All output (p) [ResultsObservationPoints] Discharge = Current # Observations Output Discharge (op) Dispersion = None # Observations Output Salt dispersion (op) Salinity = None # Observations Output Salt concentration (op) Temperature = None # Observations Output Temperature (op) Velocity = None # Observations Output Velocity (op) Volume = None # Observations Output Water volume (op) WaterDepth = None # Observations Output Water depth (op) WaterLevel = Current # Observations Output Water level (op) [ResultsLaterals] Discharge = None # Laterals Output Discharge (l) WaterLevel = None # Laterals Output Water level (l) [ResultsRetentions] Volume = None # Retentions Output Volume (rt) WaterLevel = None # Retentions Output Water level (rt) [ResultsWaterBalance] Bal2d1dIn = None # ModelWide Output Waterbalance1D_Lateral1D2DDischarge_In Bal2d1dOut = None # ModelWide Output Waterbalance1D_Lateral1D2DDischarge_Out Bal2d1dTot = None # ModelWide Output Waterbalance1D_Lateral1D2DDischarge_Total BalBoundariesIn = None # ModelWide Output Waterbalance1D_Boundaries_In BalBoundariesOut = None # ModelWide Output Waterbalance1D_Boundaries_Out BalBoundariesTot = None # ModelWide Output Waterbalance1D_Boundaries_Total BalError = None # ModelWide Output Waterbalance1D_VolumeError BalLatIn = None # ModelWide Output Waterbalance1D_LateralDischarge_In BalLatOut = None # ModelWide Output Waterbalance1D_LateralDischarge_Out BalLatTot = None # ModelWide Output Waterbalance1D_LateralDischarge_Total BalStorage = None # ModelWide Output Waterbalance1D_Storage BalVolume = None # ModelWide Output Waterbalance1D_TotalVolume [FiniteVolumeGridOnGridPoints] FiniteGridType = None # FiniteVolumeGridOnGridPoints Output Grid type (finite volume) [GlobalValues] UseInitialWaterDepth = 1 # Use initial water depth instead of water level. 0=false, 1=true InitialWaterLevel = 0.000 # Initial water level for locations where no spatial varying values is defined InitialWaterDepth = 4.640 # Initial water depth for locations where no spatial varying values is defined InitialDischarge = 0.000 # Initial discharge for branches where no spatial varying values is defined [InitialConditions] InitialEmptyWells = 0 # 0=false, 1=true [Time] StartTime = 2014-01-01 00:00:00 # yyyy-MM-dd HH:mm:ss StopTime = 2018-01-01 00:00:00 # yyyy-MM-dd HH:mm:ss TimeStep = 3600.000 # in seconds OutTimeStepGridPoints = 3600.000 # in seconds OutTimeStepStructures = 3600.000 # in seconds [Sediment] [Specials] [NumericalParameters] AccelerationTermFactor= 1 AccurateVersusSpeed = 3 CourantNumber = 1.0 DtMinimum = 0.001 EpsilonValueVolume = 0.0001 EpsilonValueWaterDepth= 0.0001 MaxDegree = 6 MaxIterations = 8 MinimumSurfaceatStreet= 0.1 MinimumSurfaceinNode = 0.1 MinimumLength = 1.0 RelaxationFactor = 1.0 Rho = 1000 StructureInertiaDampingFactor= 1.0 Theta = 1.0 ThresholdValueFlooding= 0.01 UseTimeStepReducerStructures= 0 # 0=false, 1=true [SimulationOptions] Debug = 0 # 0=false, 1=true DebugTime = 0 DispMaxFactor = 0.45 DumpInput = 0 # 0=false, 1=true Iadvec1D = 2 Limtyphu1D = 1 TimersOutputFrequency = 1 UseRestart = 0 # 0=false, 1=true WriteRestart = 0 # 0=false, 1=true UseTimers = 0 # 0=false, 1=true WriteNetCDF = 1 # 0=false, 1=true [TransportComputation] Temperature = 0 # 0=false, 1=true Density = eckart_modified # Possible values: eckart_modified, eckart, unesco HeatTransferModel = Transport # Possible values: transport, excess, composite [AdvancedOptions] CalculateDelwaqOutput = 0 ExtraResistanceGeneralStructure= 0.0 FillCulvertsWithGL = 0 # 0=false, 1=true LateralLocation = 0 MaxLoweringCrossAtCulvert= 0.0 MaxVolFact = 0.9 NoNegativeQlatWhenThereIsNoWater= 1 # 0=false, 1=true TransitionHeightSD = 0.5 Latitude = 5.2006670e+001 Longitude = 4.3555600e+000 [Salinity] SaltComputation = 0 # 0=false, 1=true DiffusionAtBoundaries = 1 # 0=false, 1=true [Temperature] BackgroundTemperature = 0.0000000e+000 SurfaceArea = 1.0000000e+006 # Exposed surface area (used in Excess model) AtmosphericPressure = 1.0000000e+005 # Atmospheric pressure DaltonNumber = 1.3000000e-003 # Dalton number StantonNumber = 1.3000000e-003 # Stanton number HeatCapacityWater = 3.9300000e+003 # Heat capacity of water [Morphology] CalculateMorphology = 1 # 0=false, 1=true AdditionalOutput = 1 # 0=false, 1=true SedimentInputFile = test010f.sed # Name of sediment input file MorphologyInputFile = test010f.mor # Name of morphology description file [Observations] InterpolationType = Nearest # Interpolation type (linear or nearest)