Deltares, DELWAQ Version 5.06.00.63037M, Feb 04 2019, 10:46:42 Execution start: 2019/07/18 21:29:28 found -p command line switch WARNING reading element ITEM_SN Apparently this processes definition file has not been adapted for NetCDF Ignoring standard names and units NetCDF Using process definition file : C:\Program Files\Deltares\Delft3D 4.04.00/x64/dwaq/default/proc_def Version number : 5.06 Serial : 2017030901 found -eco command line switch using eco input file:C:\Program Files\Deltares\Delft3D 4.04.00/x64/dwaq/default Model : Descoberto Reservoir Water quality simulations Run : scenario 0 T0: 2016.01.01 00:00:00 (scu= 1s) # scanning input for old process definitions found only_active constant only activated processes are switched on total number of substances with fractions : 0 # Determining which processes can be switched on Input for [DynDepth ] dynamic calculation of the depth Process is activated Input for [TotDepth ] depth water column Process is activated Input for [Emersion ] handle emersion z layers Process is activated Input for [Coverage ] coverage by macrophytes Process is activated Input for [Veloc ] Horizontal flow velocity Process is activated Input for [VertDisp ] Vertical dispersion (segment -> exchange) Process is activated Input for [Extinc_VLG ] Extinction of visible-light (370-680nm) DLWQ-G Process is activated Input for [CalcRad ] Radiation at segment upper and lower boundaries Process is activated Input for [CalcRadUV ] UV-Radiation at segment upper and lower boundaries Process is activated Input for [EColiMrt ] Mortality EColi bacteria Process is activated Input for [AdsPO4AAP ] Ad(De)Sorption ortho phosphorus to inorg. matter Process is activated Input for [DenWat_NO3 ] Denitrification in water column Process is activated Input for [Nitrif_NH4 ] Nitrification of ammonium Process is activated Input for [SaturOXY ] Saturation concentration oxygen Process is activated Input for [RearOXY ] Reaeration of oxygen Process is activated Input for [DBOD_TEWOR ] Oxydation of BOD Process is activated Input for [BODCOD ] Mineralisation BOD and COD Process is activated Input for [TF_Green ] Temperature functions for green algae Process is activated Input for [DL_Green ] Daylength function for green algae Process is activated Input for [NLGreen ] Nutrient limiation function for green algae Process is activated Input for [Rad_Green ] Light efficiency function green algae Process is activated Input for [GroMrt_Gre ] Nett primary production and mortality green algae Process is activated Input for [PPrLim ] Limitation (numerical) on primary production Process is activated Input for [NutUpt_Alg ] Uptake of nutrients by growth of algae Process is activated # determinig the processes to model the substances. -fluxes for [Continuity ] no fluxes found -dispersion for [Continuity ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [Continuity ] no velocity found -fluxes for [cTR1 ] no fluxes found -dispersion for [cTR1 ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [cTR1 ] no velocity found -fluxes for [OXY ] found flux [dDenitWat ] denitrification flux in the water column from proces [DenWat_NO3 ] Denitrification in water column process is switched on. found flux [dNITRIF ] nitrification flux from proces [Nitrif_NH4 ] Nitrification of ammonium process is switched on. found flux [dREAROXY ] reaeration flux of dissolved oxygen from proces [RearOXY ] Reaeration of oxygen process is switched on. found flux [dCBODOXYT ] TEWOR oxygen demand by decay of BODU from proces [DBOD_TEWOR ] Oxydation of BOD process is switched on. found flux [dOxyBODCOD ] oxygen consumption from decay BOD and COD from proces [BODCOD ] Mineralisation BOD and COD process is switched on. found flux [dPPGreen ] net primary production of Greens from proces [GroMrt_Gre ] Nett primary production and mortality green algae process is switched on. found flux [dcPPGreen ] correction flux Greens growth from proces [PPrLim ] Limitation (numerical) on primary production process is switched on. found flux [dcPPDiat ] correction flux Diatoms growth from proces [PPrLim ] Limitation (numerical) on primary production process is switched on. found flux [dNO3Upt ] uptake of NO3 by algae growth from proces [NutUpt_Alg ] Uptake of nutrients by growth of algae process is switched on. -dispersion for [OXY ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [OXY ] no velocity found -fluxes for [CBOD5 ] found flux [dCBOD5T ] TEWOR decay flux of CBOD5 from proces [DBOD_TEWOR ] Oxydation of BOD process is switched on. found flux [dCBOD5 ] decay flux of CBOD5 from proces [BODCOD ] Mineralisation BOD and COD process is switched on. -dispersion for [CBOD5 ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [CBOD5 ] no velocity found -fluxes for [NH4 ] found flux [dNITRIF ] nitrification flux from proces [Nitrif_NH4 ] Nitrification of ammonium process is switched on. found flux [dNH4Upt ] NH4 uptake by algae growth from proces [NutUpt_Alg ] Uptake of nutrients by growth of algae process is switched on. -dispersion for [NH4 ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [NH4 ] no velocity found -fluxes for [NO3 ] found flux [dDenitWat ] denitrification flux in the water column from proces [DenWat_NO3 ] Denitrification in water column process is switched on. found flux [dNITRIF ] nitrification flux from proces [Nitrif_NH4 ] Nitrification of ammonium process is switched on. found flux [dNO3Upt ] uptake of NO3 by algae growth from proces [NutUpt_Alg ] Uptake of nutrients by growth of algae process is switched on. -dispersion for [NO3 ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [NO3 ] no velocity found -fluxes for [PO4 ] found flux [dAdsPO4AAP ] adsorption flux PO4 to AAP from proces [AdsPO4AAP ] Ad(De)Sorption ortho phosphorus to inorg. matter process is switched on. found flux [dPO4Upt ] PO4 uptake by algae growth from proces [NutUpt_Alg ] Uptake of nutrients by growth of algae process is switched on. -dispersion for [PO4 ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [PO4 ] no velocity found -fluxes for [Green ] found flux [dPPGreen ] net primary production of Greens from proces [GroMrt_Gre ] Nett primary production and mortality green algae process is switched on. found flux [dMrtGreen ] mortality of Greens from proces [GroMrt_Gre ] Nett primary production and mortality green algae process is switched on. found flux [dcPPGreen ] correction flux Greens growth from proces [PPrLim ] Limitation (numerical) on primary production process is switched on. -dispersion for [Green ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [Green ] no velocity found -fluxes for [EColi ] found flux [dMrtEColi ] mortality flux EColi from proces [EColiMrt ] Mortality EColi bacteria process is switched on. -dispersion for [EColi ] found dispersion[VertDisp ] vertical dispersion from proces [VertDisp ] Vertical dispersion (segment -> exchange) process is switched on. -velocity for [EColi ] no velocity found # locating processes for requested output # determining the input for the processes (in reversed order) Input for [NutUpt_Alg ] Uptake of nutrients by growth of algae [fcPPGreeN ] numerical maximum flux Greens Using output from proces [PPrLim ] [NCRatGreen ] N:C ratio Greens using default value: 0.160000 [PCRatGreen ] P:C ratio Greens using default value: 0.200000E-01 [fcPPDiat ] numerical maximum flux Diatoms Using output from proces [PPrLim ] [NCRatDiat ] N:C ratio Diatoms using default value: 0.160000 [PCRatDiat ] P:C ratio Diatoms using default value: 0.200000E-01 [SCRatDiat ] Si:C ratio Diatoms using default value: 0.490000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 5 [NO3 ] Nitrate (NO3) Using substance nr 6 [NH4KRIT ] critical NH4 concentration Using constant nr 1 with value: 0.100000E-01 Input for [PPrLim ] Limitation (numerical) on primary production [fPPGreen ] net primary production of Greens Using output from proces [GroMrt_Gre ] [NCRatGreen ] N:C ratio Greens using default value: 0.160000 [PCRatGreen ] P:C ratio Greens using default value: 0.200000E-01 [fPPDiat ] net primary production of Diatoms Using constant nr 25 with value: 0.00000 [NCRatDiat ] N:C ratio Diatoms using default value: 0.160000 [PCRatDiat ] P:C ratio Diatoms using default value: 0.200000E-01 [SCRatDiat ] Si:C ratio Diatoms using default value: 0.490000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 5 [NO3 ] Nitrate (NO3) Using substance nr 6 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 7 [Si ] dissolved Silica (Si) using default value: 0.00000 Input for [GroMrt_Gre ] Nett primary production and mortality green algae [Green ] Algae (non-Diatoms) Using substance nr 8 [LimDLGreen ] daylength limitation function for Greens <0-1> Using output from proces [DL_Green ] [LimNutGree ] nutrient limitation function Greens <0-1> Using output from proces [NLGreen ] [LimRadGree ] radiation limitation function Greens <0-1> Using output from proces [Rad_Green ] [TFGroGreen ] temperature function growth Greens <0-1> Using output from proces [TF_Green ] [TFMrtGreen ] temperature function mortality Greens <0-1> Using output from proces [TF_Green ] [PPMaxGreen ] maximum production rate Greens Using constant nr 17 with value: 1.80000 [MRespGreen ] maintenance respiration Greens st.temp Using constant nr 18 with value: 0.450000E-01 [GRespGreen ] growth respiration factor Greens Using constant nr 19 with value: 0.150000 [Mort0Green ] mortality rate constant Greens Using constant nr 20 with value: 0.350000 [MortSGreen ] mortality rate Greens at high salinity Using constant nr 21 with value: 0.350000 [SalM1Green ] lower salinity limit for mortality Greens Using constant nr 22 with value: 0.00000 [SalM2Green ] upper salinity limit for mortality Greens Using constant nr 23 with value: 0.00000 [Salinity ] Salinity Using constant nr 12 with value: 0.00000 [MinGreen ] Minimum level Greens in mortality Using constant nr 24 with value: 0.00000 Input for [Rad_Green ] Light efficiency function green algae [Depth ] depth of segment Using output from proces [DynDepth ] [Rad ] irradiation at the segment upper-boundary Using output from proces [CalcRad ] [RadSatGree ] total radiation growth saturation greens using default value: 30.0000 [ExtVl ] total extinction coefficient visible light Using output from proces [Extinc_VLG ] [TFGroGreen ] temperature function growth Greens <0-1> Using output from proces [TF_Green ] Input for [NLGreen ] Nutrient limiation function for green algae [PrfNH4gree ] ammonium preferency over nitrate Greens using default value: 1.00000 [KMDINgreen ] half-saturation value N Greens using default value: 0.500000E-02 [KMPgreen ] half-saturation value P Greens using default value: 0.100000E-02 [KMSigreen ] half-saturation value Si Greens using default value: -1.00000 [NH4 ] Ammonium (NH4) Using substance nr 5 [NO3 ] Nitrate (NO3) Using substance nr 6 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 7 [Si ] dissolved Silica (Si) using default value: -1.00000 Input for [DL_Green ] Daylength function for green algae [DayL ] daylength <0-1> Using constant nr 27 with value: 0.580000 [OptDLGreen ] daylength for growth saturation Greens using default value: 0.580000 Input for [TF_Green ] Temperature functions for green algae [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [TcGroGreen ] temperature coeff. for growth processes Greens using default value: 1.04000 [TcDecGreen ] temp. coeff. for respiration and mortality Greens using default value: 1.07000 Input for [BODCOD ] Mineralisation BOD and COD [SwOXYDem ] switch oxygen consumption(0=BOD, 1=COD, 2=both) using default value: 0.00000 [CBOD5 ] carbonaceous BOD (first pool) at 5 days Using substance nr 4 [CBOD5_2 ] carbonaceous BOD (second pool) at 5 days using default value: 0.00000 [CBODu ] carbonaceous BOD (first pool) ultimate Using output from proces [DBOD_TEWOR ] [CBODu_2 ] carbonaceous BOD (second pool) ultimate Using output from proces [DBOD_TEWOR ] [COD_Cr ] COD concentration by the Cr-method using default value: 0.00000 [COD_Mn ] COD concentration by the Mn-method using default value: 0.00000 [NBOD5 ] nitrogenous BOD at 5 days using default value: 0.00000 [NBODu ] nitrogenous BOD ultimate using default value: 0.00000 [RcBOD ] decay rate BOD (first pool) at 20 oC Using constant nr 16 with value: 0.300000 [RcBOD_2 ] decay rate BOD (second pool) at 20 oC using default value: 0.150000 [RcCOD ] decay rate COD at 20 oC using default value: 0.500000E-01 [RcBODN ] first-order mineralisation rate BODN using default value: 0.300000 [TcBOD ] temperature coefficient decay BOD using default value: 1.04000 [TcCOD ] temperature coefficient decay COD using default value: 1.02000 [TcBODN ] temperature coefficient decay BODN using default value: 1.08000 [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [OXY ] Dissolved Oxygen Using substance nr 3 [COXBOD ] critical oxygen concentration for BOD decay using default value: 1.00000 [OOXBOD ] optimum oxygen concentration for BOD decay using default value: 5.00000 [CFLBOD ] oxygen function level for oxygen below COXBOD using default value: 0.300000 [CurvBOD ] curvature of DO function for mineralisation BOD using default value: 0.00000 [LAgeFun ] lower value of age function BOD decay using default value: 1.00000 [UAgeFun ] upper value of age function BOD decay using default value: 1.00000 [LAgeIndx ] lower value of age index BOD decay using default value: 2.00000 [UAgeIndx ] upper value of age index BOD decay using default value: 3.00000 [Phyt ] total carbon in phytoplankton using default value: 0.00000 [BOD5/uPHYT ] BOD5:BODu ratio in phytoplankton using default value: 0.600000 [AlgFrBOD ] fraction algae contributing to BOD-inf using default value: 0.500000 [OXCCF ] O2:C ratio in mineralisation using default value: 2.67000 [POCnoa ] total POC (no algae) using default value: 0.00000 [BOD5/infPO ] BOD5:BODu ratio in POC using default value: 0.600000 [POCFrBOD ] fraction of POC contributing to BOD-inf using default value: 1.00000 [EffCOD_Cr ] efficiency of Cr method for COD using default value: 0.900000 [EffCOD_Mn ] efficiency of Mn method for COD using default value: 0.500000 [AMCCF ] amount oxygen used for nitrogen in miner. using default value: 0.550000 Input for [DBOD_TEWOR ] Oxydation of BOD [CBOD5 ] carbonaceous BOD (first pool) at 5 days Using substance nr 4 [CBOD5_2 ] carbonaceous BOD (second pool) at 5 days using default value: 0.00000 [CBOD5_3 ] carbonaceous BOD (third pool) at 5 days using default value: 0.00000 [RcBOD ] decay rate BOD (first pool) at 20 oC Using constant nr 16 with value: 0.300000 [RcBOD_2 ] decay rate BOD (second pool) at 20 oC using default value: 0.150000 [RCBOD_3 ] decay rate BOD (third pool) at 20 oC using default value: 0.100000 [KMOX ] half sat const for limit. of BOD oxydation using default value: 1.00000 [OXY ] Dissolved Oxygen Using substance nr 3 Input for [RearOXY ] Reaeration of oxygen [OXY ] Dissolved Oxygen Using substance nr 3 [Depth ] depth of segment Using output from proces [DynDepth ] [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [Velocity ] horizontal flow velocity Using output from proces [Veloc ] [VWind ] wind speed Using function nr 1 [SWRear ] switch for oxygen reaeration formulation (1-13) using default value: 1.00000 [KLRear ] reaeration transfer coefficient Using constant nr 13 with value: 1.00000 [TCRear ] temperature coefficient for rearation using default value: 1.01600 [DELT ] timestep for processes Using DELWAQ timestep in days [SaturOXY ] saturation concentration Using output from proces [SaturOXY ] [Salinity ] Salinity Using constant nr 12 with value: 0.00000 [TotalDepth ] total depth water column Using output from proces [TotDepth ] [fcover ] fraction of water surface covered <0-1> Using constant nr 14 with value: 0.00000 [KLRearMax ] maximum KLREAR oxygen for temp. correction using default value: 1000.00 [KLRearMin ] minimum rearation transfer coefficient oxygen Using constant nr 15 with value: 0.200000 [Rain ] rainfall rate using default value: 0.00000 [coefAOxy ] gas transfer Oxy coefficient transmission using default value: 1.66000 [coefB1Oxy ] gas transfer O2 coefficient wind scale 1 using default value: 0.260000 [coefB2Oxy ] gas transfer O2 coefficient wind scale 2 using default value: 1.00000 [coefC1Oxy ] gas transfer O2 coefficient rain scale 1 using default value: 0.660000 [coefC2Oxy ] gas transfer O2 coefficient rain scale 2 using default value: 1.00000 [coefD1Oxy ] fresh water coefficient1 for Schmidt nr Oxy using default value: 1800.06 [coefD2Oxy ] fresh water coefficient2 for Schmidt nr Oxy using default value: 120.100 [coefD3Oxy ] fresh water coefficient3 for Schmidt nr Oxy using default value: 3.78180 [coefD4Oxy ] fresh water coefficient4 for Schmidt nr Oxy using default value: 0.476080E-01 Input for [SaturOXY ] Saturation concentration oxygen [Cl ] Chloride Using constant nr 26 with value: 0.00000 [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [SWSatOXY ] switch for oxygen saturation formulation (1, 2) using default value: 1.00000 [Salinity ] Salinity Using constant nr 12 with value: 0.00000 Input for [Nitrif_NH4 ] Nitrification of ammonium [ZNit ] zeroth-order nitrification flux Using constant nr 8 with value: 0.00000 [NH4 ] Ammonium (NH4) Using substance nr 5 [RcNit20 ] MM- nitrification rate at 20 oC Using constant nr 9 with value: 0.100000 [TcNit ] temperature coefficient for nitrification using default value: 1.07000 [OXY ] Dissolved Oxygen Using substance nr 3 [KsAmNit ] half saturation constant for ammonium cons. using default value: 0.500000 [KsOxNit ] half saturation constant for DO cons. using default value: 1.00000 [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [CTNit ] critical temperature for nitrification Using constant nr 10 with value: 3.00000 [Rc0NitOx ] zero-order nitrification rate at neg. DO using default value: 0.00000 [COXNIT ] critical oxygen concentration for nitrification using default value: 1.00000 [Poros ] volumetric porosity using default value: 1.00000 [SWVnNit ] switch for old (0), new (1), TEWOR (2) version using default value: 0.00000 [RcNit ] first-order nitrification rate Using constant nr 11 with value: 0.100000 [OOXNIT ] optimum oxygen concentration for nitrification using default value: 5.00000 [CFLNIT ] oxygen function level for oxygen below COXNIT using default value: 0.00000 [CurvNit ] curvature of DO function for nitrification using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days Input for [DenWat_NO3 ] Denitrification in water column [ZDenWat ] zero-order denitrification rate in water column Using constant nr 2 with value: 0.00000 [NO3 ] Nitrate (NO3) Using substance nr 6 [RcDen20 ] MM-denitrification reaction rate at 20 oC Using constant nr 3 with value: 0.100000 [TcDenWat ] temperature coefficient for denitrification using default value: 1.07000 [OXY ] Dissolved Oxygen Using substance nr 3 [KsNiDen ] half saturation constant for nitrate cons. using default value: 0.500000 [KsOxDen ] half saturation constant for oxygen inhib. using default value: 1.00000 [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [CTDEN ] critical temperature for denitrification Using constant nr 5 with value: 2.00000 [Rc0DenOx ] zero-order denit. rate at low temperature using default value: 0.00000 [COXDEN ] critical oxygen concentration for denitrification using default value: 3.00000 [Poros ] volumetric porosity using default value: 1.00000 [SWVnDen ] switch to select old (0) or new (1) version using default value: 0.00000 [RcDenWat ] first-order denitrification rate in water column Using constant nr 6 with value: 0.100000 [OOXDEN ] optimum oxygen concentration for denitrification Using constant nr 7 with value: 1.00000 [Curvat ] curvature of DO function for denitrification using default value: 1.00000 Input for [AdsPO4AAP ] Ad(De)Sorption ortho phosphorus to inorg. matter [SWAdsP ] switch PO4 adsorption <0=Kd|1=Langmuir|2=pHdep> using default value: 1.00000 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 7 [AAP ] adsorbed ortho phosphate Using constant nr 29 with value: 0.00000 [IM1 ] inorganic matter (IM1) using default value: 0.00000 [IM2 ] inorganic matter (IM2) using default value: 0.00000 [IM3 ] inorganic matter (IM3) using default value: 0.00000 [KdPO4AAP ] distrib. coeff. (-) or ads. eq. const. using default value: 0.100000 [MaxPO4AAP ] adsorption capacity TIM for PO4 using default value: 0.150000 [DELT ] timestep for processes Using DELWAQ timestep in days [KadsP_20 ] Adsorption equilibrium constant at 20 oC using default value: 3.80000 [TCKadsP ] temperature dependency constant Kads using default value: 1.00000 [RcAdPO4AAP ] adsorption rate PO4 --> AAP Using constant nr 30 with value: 1.00000 [a_OH-PO4 ] OH-:PO4 ratio in sorption reaction using default value: 0.200000 [fr_FeIM1 ] fraction Fe in inorg. matter IM1 using default value: 0.300000E-01 [fr_FeIM2 ] fraction Fe in inorg. matter IM2 using default value: 0.500000E-02 [fr_FeIM3 ] fraction Fe in inorg. matter IM3 using default value: 0.100000E-02 [fr_Feox ] fraction reactive Fe of total Fe using default value: 1.00000 [OXY ] Dissolved Oxygen Using substance nr 3 [Cc_oxPsor ] critical oxygen conc for P sorption using default value: 0.00000 [pH ] pH Using constant nr 31 with value: 7.30000 [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [Poros ] volumetric porosity using default value: 1.00000 [SWVnAdsP ] switch to select old(0) or new(1) version using default value: 0.00000 [fr_Fe ] fraction Fe in solid matter using default value: 0.200000E-01 [RCadsPgem ] pseudo first-order rate PO4 sorption using default value: 1.00000 Input for [EColiMrt ] Mortality EColi bacteria [EColi ] E. Coli bacteria Using substance nr 9 [RcMrtEColi ] first-order mortality rate EColi Using constant nr 32 with value: 0.800000 [TcMrtEColi ] temperature coefficient for mortality EColi using default value: 1.07000 [Temp ] ambient water temperature Using constant nr 4 with value: 15.0000 [CTMrtEColi ] critical temperature for mortality EColi Using constant nr 33 with value: 2.00000 [Cl ] Chloride Using constant nr 26 with value: 0.00000 [Rad_uv ] UV-irradiation at the segment upper-boundary Using output from proces [CalcRadUV ] [CFRAD ] conversion factor RAD to mortality rate using default value: 0.860000E-01 [DayL ] daylength <0-1> Using constant nr 27 with value: 0.580000 [FrUvVL ] fraction UV light in visible light using default value: 0.120000 [ExtUv ] total extinction coefficient UV light Using constant nr 34 with value: 1.00000 [Depth ] depth of segment Using output from proces [DynDepth ] [SpMrtEColi ] chloride enhanced mortality rate EColi using default value: 0.110000E-04 Input for [CalcRadUV ] UV-Radiation at segment upper and lower boundaries [ExtUv ] total extinction coefficient UV light Using constant nr 34 with value: 1.00000 [Depth ] depth of segment Using output from proces [DynDepth ] [RadSurf ] irradiation at the water surface Using output from proces [Coverage ] [a_enh ] enhancement factor in radiation calculation using default value: 1.50000 [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using output from proces [Emersion ] [RadBot_uv ] UV-irradiation at the segment lower-boundary Using output from proces [CalcRadUV ] [fRefl ] fraction of radiation reflected at water surface using default value: 0.00000 Input for [CalcRad ] Radiation at segment upper and lower boundaries [ExtVl ] total extinction coefficient visible light Using output from proces [Extinc_VLG ] [Depth ] depth of segment Using output from proces [DynDepth ] [RadSurf ] irradiation at the water surface Using output from proces [Coverage ] [a_enh ] enhancement factor in radiation calculation using default value: 1.50000 [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using output from proces [Emersion ] [RadBot ] irradiation at the segment lower-boundary Using output from proces [CalcRad ] [fRefl ] fraction of radiation reflected at water surface using default value: 0.00000 Input for [Extinc_VLG ] Extinction of visible-light (370-680nm) DLWQ-G [ExtVlIM1 ] VL specific extinction coefficient IM1 using default value: 0.100000E-01 [ExtVlIM2 ] VL specific extinction coefficient IM2 using default value: 0.100000E-01 [ExtVlIM3 ] VL specific extinction coefficient IM3 using default value: 0.100000E-01 [ExtVlPOC1 ] VL specific extinction coefficient POC1 using default value: 0.100000 [ExtVlBak ] background extinction visible light using default value: 0.800000E-01 [ExtVlPhyt ] VL extinction by phytoplankton using default value: 0.00000 [ExtVlMacro ] VL extinction by macrophytes using default value: 0.00000 [IM1 ] inorganic matter (IM1) using default value: 0.00000 [IM2 ] inorganic matter (IM2) using default value: 0.00000 [IM3 ] inorganic matter (IM3) using default value: 0.00000 [POC1 ] POC1 (fast decomposing fraction) using default value: 0.00000 [POC2 ] POC2 (medium decomposing fraction) using default value: 0.00000 [SW_Uitz ] Extinction by Uitzicht On (1) or Off (0) using default value: 0.00000 [DOC ] Dissolved Organic Carbon (DOC) using default value: 0.00000 [ExtVlDOC ] VL specific extinction coefficient DOC using default value: 0.00000 [UitZDEPT1 ] Z1 (depth) using default value: 1.20000 [UitZDEPT2 ] Z2 (depth) using default value: 1.00000 [UitZCORCH ] CORa correction factor using default value: 2.50000 [UitZC_DET ] C3 coeff. absorption ash weight & detritus using default value: 0.260000E-01 [UitZC_GL1 ] C1 coeff. absorption ash weight & detritus using default value: 0.730000 [UitZC_GL2 ] C2 coeff. absorption ash weight & detritus using default value: 1.00000 [UitZHELHM ] Hel_h constant using default value: 0.140000E-01 [UitZTAU ] Tau constant calculation transparency using default value: 7.80000 [UitZangle ] Angle of incidence solar radiation using default value: 30.0000 [DMCFDetC ] DM:C ratio DetC using default value: 2.50000 [ExtVLSal0 ] extra VL extinction at Salinity = 0 using default value: 0.00000 [Salinity ] Salinity Using constant nr 12 with value: 0.00000 [SalExt0 ] salinity value for extra extinction = 0 using default value: 34.9200 [ExtVlPOC2 ] VL specific extinction coefficient POC2 using default value: 0.100000 [ExtVlPOC3 ] VL specific extinction coefficient POC3 using default value: 0.100000 [ExtVlPOC4 ] VL specific extinction coefficient POC4 using default value: 0.100000 [POC3 ] POC3 (slow decomposing fraction) using default value: 0.00000 [POC4 ] POC4 (particulate refractory fraction) using default value: 0.00000 Input for [VertDisp ] Vertical dispersion (segment -> exchange) [VertDisper ] vertical dispersion Using segment function nr 1 [ScaleVdisp ] scaling factor for vertical diffusion Using constant nr 39 with value: 1.00000 Input for [Veloc ] Horizontal flow velocity [WSNoseg1 ] workspace array no. 1 Using output from proces [Veloc ] [WSNoseg2 ] workspace array no. 2 Using output from proces [Veloc ] [WSNoseg3 ] workspace array no. 3 Using output from proces [Veloc ] [WSNoseg4 ] workspace array no. 4 Using output from proces [Veloc ] [MaxVeloc ] maximum horizontal flow velocity using default value: 0.00000 [Orient_1 ] orientation of main positive flow direction using default value: -1.00000 [Orient_2 ] orientation of secondary positive flow direct using default value: -1.00000 [SWCalcVelo ] switch (1=lin avg, 2=Flow avg, 3=Area avg) using default value: 1.00000 [SWAvgVelo ] switch (1=Pythagoras, 2=Min, 3=Max) using default value: 1.00000 [XArea ] exchange area Using DELWAQ exchange area [Flow ] flow rate Using DELWAQ flow Input for [Coverage ] coverage by macrophytes [nMacrophyt ] number of macrophyte species using default value: 5.00000 [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [EM01 ] macrophyt emerged 01 using default value: 0.00000 [PotEM01 ] potential biomass for EM01 using default value: 0.00000 [EM02 ] macrophyt emerged 02 using default value: 0.00000 [PotEM02 ] potential biomass for EM02 using default value: 0.00000 [EM03 ] macrophyt emerged 03 using default value: 0.00000 [PotEM03 ] potential biomass for EM03 using default value: 0.00000 [EM04 ] macrophyt emerged 04 using default value: 0.00000 [PotEM04 ] potential biomass for EM04 using default value: 0.00000 [EM05 ] macrophyt emerged 05 using default value: 0.00000 [PotEM05 ] potential biomass for EM05 using default value: 0.00000 [IBotSeg ] Bottom segment number Using output from proces [Coverage ] [RadMacrop ] irradiation at the top of EM Using constant nr 28 with value: 0.00000 Input for [Emersion ] handle emersion z layers [Depth ] depth of segment Using output from proces [DynDepth ] [ZThreshold ] depth threshold for emersion Using constant nr 44 with value: 0.100000E-01 Input for [TotDepth ] depth water column [Depth ] depth of segment Using output from proces [DynDepth ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 Input for [DynDepth ] dynamic calculation of the depth [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 # determining the use of the delwaq input info: constant [CLOSE_ERR ] is not used by the proces system info: constant [MaxIter ] is not used by the proces system info: constant [Tolerance ] is not used by the proces system info: constant [Iteration ] is not used by the proces system info: parameter [bottomdept] is not used by the proces system # locating requested output from active processes output [BOD5 ] from proces [BODCOD ] output [LocalDepth ] from proces [TotDepth ]