[MorphologyFileInformation] FileCreatedBy = V FileCreationDate = today :D FileVersion = 02.00 [Morphology] EpsPar = false Vertical mixing distribution according to van Rijn (overrules k-epsilon model) IopKCW = 1 Flag for determining Rc and Rw RDC = 0.01 [m] Current related roughness height (only used if IopKCW <> 1) RDW = 0.02 [m] Wave related roughness height (only used if IopKCW <> 1) MorFac = 1.0000000E+00 [-] Morphological scale factor MorStt = 1.8000000E+03 [s] Spin-up interval from TStart till start of morphological changes Thresh = 1.0000000e-003 [m] Threshold sediment thickness for transport and erosion reduction BedUpd = true Update bed levels during FLOW simulation UpdInf = true Update bed levels at inflow boundaries during FLOW simulation CmpUpd = true Update bed composition during flow run EqmBc = true Equilibrium sand concentration profile at inflow boundaries DensIn = false Include effect of sediment concentration on fluid density AksFac = 1.0000000e+000 [-] van Rijn's reference height = AKSFAC * KS RWave = 1.0000000e+000 [-] Wave related roughness = RWAVE * estimated ripple height. Van Rijn Recommends range 1-3 AlfaBs = 0.0000000e+000 [-] Streamwise bed gradient factor for bed load transport AlfaBn = 0.0000000e+000 [-] Transverse bed gradient factor for bed load transport Sus = 1.0000000e+000 [-] Multiplication factor for suspended sediment reference concentration Bed = 1.0000000e+000 [-] Multiplication factor for bed-load transport vector magnitude SusW = 1.0000000e+000 [-] Wave-related suspended sed. transport factor BedW = 1.0000000e+000 [-] Wave-related bed-load sed. transport factor SedThr = 1.0000000e-001 [m] Minimum water depth for sediment computations ThetSD = 0.0000000e+000 [-] Factor for erosion of adjacent dry cells HMaxTH = 1.5000000e+000 [m] Max depth for variable THETSD. Set < SEDTHR to use global value only FWFac = 1.0000000e+000 [-] Vertical mixing distribution according to van Rijn (overrules k-epsilon model) EpsPar = false [T/F] Only for waves in combination with k-epsilon turbulence model TRUE : Van Rijn's parabolic-linear mixing distribution for current-related mixing FALSE: Vertical sediment mixing values from K-epsilon turbulence model IopKCW = 1 [ - ] Flag for determining Rc and Rw 1 (default): Rc from flow, Rw=RWAVE*0.025 2 : Rc=RDC and Rw=RDW as read from this file 3 : Rc=Rw determined from mobility RDC = 0.01 [ - ] Rc in case IopKCW = 2 RDW = 0.02 [ - ] Rw in case IopKCW = 2 Espir = 0.0 [ - ] Calibration factor spiral flow ISlope = 3 [ - ] Flag for bed slope effect 1 : None 2 (default): Bagnold 3 : Koch & Flokstra AShld = 1.000000 [ - ] Bed slope parameter Koch & Flokstra BShld = 0.000000 [ - ] Bed slope parameter Koch & Flokstra CShld = 0.000000 [ - ] Bed slope parameter Koch & Flokstra DShld = 0.000000 [ - ] Bed slope parameter Koch & Flokstra IHidExp= 1 [ - ] Flag for hiding & exposure 1 (default): none 2 : Egiazaroff 3 : Ashida & Michiue, modified Egiazaroff 4 : Soehngen, Kellermann, Loy 5 : Wu, Wang, Jia BcFil = bcm.bcm ASKLHE = 8.0000000E-01 [Boundary] Name = Upstream IBedCond = 1 ICmpCond = 0 [Boundary] Name = Downstream IBedCond = 0 ICmpCond = 0 [Output] Dm = false Dg = false HidExp = false Percentiles = 10 [Underlayer] IUnderLyr = 2 [ - ] Flag for underlayer concept 1 (default): one fully mixed layer 2 : graded sediment underlayers IniComp = mini.ini ExchLyr = false [T/F] Switch for exchange layer TTLForm = 1 [ - ] Transport layer thickness formulation 1 (default): constant (user-specified) thickness ThTrLyr = 1.0000000E-01 [ m ] Thickness of the transport layer MxNULyr = 2 [ - ] Number of underlayers (excluding final well mixed layer) ThUnLyr = 5.0000000E+00 [ m ] Thickness of each underlayer