configuration 'WAQS' serial 2008101501 substance_group 'Eutrophication' substance 'AAP' name 'adsorbed ortho phosphate' unit '(gP/m3)' active 1 selected_processes abbrev 'AdsPO4AAP' name 'Ad(De)Sorption ortho phosphorus to inorg. matter' active 1 abbrev 'Sed_AAP' name 'Sedimentation AAP (adsorbed PO4)' active 1 abbrev 'Res_AAP' name 'Resuspension AAP (adsorbed PO4)' active 0 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance substance 'DetC' name 'Detritus Carbon (DetC)' unit '(gC/m3)' active 1 selected_processes abbrev 'Compos' name 'Composition' active 1 abbrev 'WM_DetC' name 'Mineralisation detritus carbon' active 1 abbrev 'NutRel_Alg' name 'Release (nutrients/detritus) by of mortality algae' active 1 abbrev 'SedDetC' name 'Sedimentation detritus carbon' active 1 abbrev 'Res_DetC' name 'Resuspension detritus carbon' active 0 abbrev 'Secchi' name 'Extinction of visible-light (370-680nm)' active 1 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance substance 'DetN' name 'Detritus Nitrogen (DetN)' unit '(gN/m3)' active 1 selected_processes abbrev 'WM_DetN' name 'Mineralisation detritus nitrogen' active 1 abbrev 'NutRel_Alg' name 'Release (nutrients/detritus) by of mortality algae' active 1 abbrev 'SedN_Det' name 'Sedim. nutrients in detritus' active 1 abbrev 'ResN_Det' name 'Resuspension nutrients in detritus' active 0 abbrev 'Prod_TEWOR' name 'Production fluxes for TEWOR+' active 0 abbrev 'SedDetC' name 'Sedimentation detritus carbon' active 1 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance substance 'DetP' name 'Detritus Phosphorus (DetP)' unit '(gP/m3)' active 1 selected_processes abbrev 'WM_DetP' name 'Mineralisation detritus phosphorus' active 1 abbrev 'NutRel_Alg' name 'Release (nutrients/detritus) by of mortality algae' active 1 abbrev 'SedN_Det' name 'Sedim. nutrients in detritus' active 1 abbrev 'ResN_Det' name 'Resuspension nutrients in detritus' active 0 abbrev 'SedDetC' name 'Sedimentation detritus carbon' active 1 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance substance 'GREEN' name 'Algae (non-Diatoms)' unit '(gC/m3)' active 1 selected_processes abbrev 'GroMrt_Gre' name 'Nett primary production and mortality green algae' active 1 abbrev 'PPrLim' name 'Limitation (numerical) on primary production' active 1 abbrev 'OXYMin' name 'Potential mimimum dissolved oxygen concentration' active 0 abbrev 'Sed_Gre' name 'Sedimentation green algae' active 1 abbrev 'Res_Green' name 'Resuspension green algae' active 0 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance substance 'NH4' name 'Ammonium (NH4)' unit '(gN/m3)' active 1 selected_processes abbrev 'NutUpt_Alg' name 'Uptake of nutrients by growth of algae' active 1 abbrev 'Compos' name 'Composition' active 1 abbrev 'Nitrif_NH4' name 'Nitrification of ammonium' active 1 abbrev 'BMS1_DetN' name 'Mineralisation detritus nitrogen in sediment S1' active 0 abbrev 'BMS2_DetN' name 'Mineralisation detritus nitrogen in sediment S2' active 0 abbrev 'BMS1_OON' name 'Mineralisation other organic N in sediment S1' active 0 abbrev 'BMS2_OON' name 'Mineralisation other organic N in sediment S2' active 0 abbrev 'WM_DetN' name 'Mineralisation detritus nitrogen' active 1 abbrev 'WM_OON' name 'Mineralisation other organic nitrogen' active 0 abbrev 'NutRel_Alg' name 'Release (nutrients/detritus) by of mortality algae' active 1 abbrev 'NRAlg_S1' name 'Nutrient release of algae in S1' active 0 abbrev 'NRAlg_S2' name 'Nutrient release of algae in S2' active 0 abbrev 'AtmDep_NH4' name 'Atmospheric deposition NH4' active 0 abbrev 'Dfwast_NH4' name 'Diffusive waste NH4' active 0 abbrev 'NH3free' name 'Calculation conc. unionized ammonia' active 0 abbrev 'Prod_TEWOR' name 'Production fluxes for TEWOR+' active 0 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance substance 'NO3' name 'Nitrate (NO3)' unit '(gN/m3)' active 1 selected_processes abbrev 'NutUpt_Alg' name 'Uptake of nutrients by growth of algae' active 1 abbrev 'Compos' name 'Composition' active 1 abbrev 'DenSed_NO3' name 'Denitrification in sediment' active 0 abbrev 'DenWat_NO3' name 'Denitrification in water column' active 1 abbrev 'Nitrif_NH4' name 'Nitrification of ammonium' active 1 abbrev 'AtmDep_NO3' name 'Atmospheric deposition NO3' active 0 abbrev 'Dfwast_NO3' name 'Diffusive waste NO3' active 0 abbrev 'Prod_TEWOR' name 'Production fluxes for TEWOR+' active 0 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance substance 'PO4' name 'Ortho-Phosphate (PO4)' unit '(gP/m3)' active 1 selected_processes abbrev 'NutUpt_Alg' name 'Uptake of nutrients by growth of algae' active 1 abbrev 'Compos' name 'Composition' active 1 abbrev 'AdsPO4AAP' name 'Ad(De)Sorption ortho phosphorus to inorg. matter' active 1 abbrev 'BMS1_DetP' name 'Mineralisation detritus phosphorus in sediment S1' active 0 abbrev 'BMS2_DetP' name 'Mineralisation detritus phosphorus in sediment S2' active 0 abbrev 'BMS1_OOP' name 'Mineralisation other organic P in sediment S1' active 0 abbrev 'BMS2_OOP' name 'Mineralisation other organic P in sediment S2' active 0 abbrev 'Deso_AAPS1' name 'Desorption of adsorbed phosphates in sediment S1' active 0 abbrev 'Deso_AAPS2' name 'Desorption of adsorbed phosphates in sediment S2' active 0 abbrev 'WM_DetP' name 'Mineralisation detritus phosphorus' active 1 abbrev 'WM_OOP' name 'Mineralisation other organic phosphorus' active 0 abbrev 'NutRel_Alg' name 'Release (nutrients/detritus) by of mortality algae' active 1 abbrev 'NRAlg_S1' name 'Nutrient release of algae in S1' active 0 abbrev 'NRAlg_S2' name 'Nutrient release of algae in S2' active 0 abbrev 'AtmDep_PO4' name 'Atmospheric deposition PO4' active 0 abbrev 'Dfwast_PO4' name 'Diffusive waste PO4' active 0 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance end-substance_group substance_group 'Oxygen-BOD' substance 'OXY' name 'Dissolved Oxygen' unit '(g/m3)' active 1 selected_processes abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 abbrev 'NutUpt_Alg' name 'Uptake of nutrients by growth of algae' active 1 abbrev 'DenWat_NO3' name 'Denitrification in water column' active 1 abbrev 'Nitrif_NH4' name 'Nitrification of ammonium' active 1 abbrev 'RearOXY' name 'Reaeration of oxygen' active 1 abbrev 'BMS1_DetC' name 'Mineralisation detritus carbon in sediment S1' active 0 abbrev 'BMS2_DetC' name 'Mineralisation detritus carbon in sediment S2' active 0 abbrev 'BMS1_OOC' name 'Mineralisation other organic C in sediment S1' active 0 abbrev 'BMS2_OOC' name 'Mineralisation other organic C in sediment S2' active 0 abbrev 'WM_DetC' name 'Mineralisation detritus carbon' active 1 abbrev 'WM_OOC' name 'Mineralisation other organic carbon' active 0 abbrev 'BODCOD' name 'Mineralisation BOD and COD' active 1 abbrev 'DBOD_TEWOR' name 'Oxydation of BOD' active 1 abbrev 'SedOXYDem' name 'Sediment oxygen demand' active 1 abbrev 'GroMrt_Gre' name 'Nett primary production and mortality green algae' active 1 abbrev 'GroMrt_Dia' name 'Nett primary production and mortality diatoms' active 0 abbrev 'PPrLim' name 'Limitation (numerical) on primary production' active 1 abbrev 'OXYMin' name 'Potential mimimum dissolved oxygen concentration' active 0 abbrev 'PosOXY' name 'Positive oxygen concentration' active 1 abbrev 'Prod_TEWOR' name 'Production fluxes for TEWOR+' active 0 abbrev 'Damrear' name 'Reaeration at weirs' active 0 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 end-selected_processes end-substance substance 'SOD' name 'Sediment oxygen demand (SOD)' unit '(gO2/m3)' active 0 selected_processes abbrev 'SedOXYDem' name 'Sediment oxygen demand' active 1 abbrev 'SED_SOD' name 'Sedimentation of oxygen demand' active 0 end-selected_processes end-substance end-substance_group substance_group 'General' substance 'Cl' name 'Chloride' unit '(g/m3)' active 1 selected_processes abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance end-substance_group substance_group 'Suspended matter' substance 'IM1' name 'inorganic matter (IM1)' unit '(gDM/m3)' active 1 selected_processes abbrev 'Compos' name 'Composition' active 1 abbrev 'Sed_IM1' name 'Sedimentation IM1' active 1 abbrev 'Res_IM1' name 'Resuspension 1st inorganic matter' active 1 abbrev 'AtmDep_IM1' name 'Atmospheric deposition IM1' active 0 abbrev 'Dfwast_IM1' name 'Diffusive waste IM1' active 0 abbrev 'Secchi' name 'Extinction of visible-light (370-680nm)' active 1 abbrev 'VertDisp' name 'Vertical dispersion (segment -> exchange)' active 0 abbrev 'HorzDisper' name 'Horizontal dispersion in a 1D model' active 0 end-selected_processes end-substance end-substance_group process_parameter 'AAP' name 'adsorbed ortho phosphate' unit '(gP/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Cl' name 'Chloride' unit '(g/m3)' modelled 1 default 2.000e+004 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DetC' name 'Detritus Carbon (DetC)' unit '(gC/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DetN' name 'Detritus Nitrogen (DetN)' unit '(gN/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DetP' name 'Detritus Phosphorus (DetP)' unit '(gP/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'GREEN' name 'Algae (non-Diatoms)' unit '(gC/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'IM1' name 'inorganic matter (IM1)' unit '(gDM/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'NH4' name 'Ammonium (NH4)' unit '(gN/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'NO3' name 'Nitrate (NO3)' unit '(gN/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'OXY' name 'Dissolved Oxygen' unit '(g/m3)' modelled 1 default 1.000e+001 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PO4' name 'Ortho-Phosphate (PO4)' unit '(gP/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'SOD' name 'Sediment oxygen demand (SOD)' unit '(gO2/m3)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Depth' name 'depth of segment' unit '(m)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'DynDepth' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TotalDepth' name 'total depth water column' unit '(m)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'TotDepth' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'ExtVlGreen' name 'VL specific extinction coefficient Greens' unit '(m2/gC)' modelled 0 default 1.500e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'ExtVlDetC' name 'VL specific extinction coefficient DetC' unit '(m2/gC)' modelled 0 default 4.700e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'ExtVlIM1' name 'VL specific extinction coefficient M1' unit '(m2/gDM)' modelled 0 default 1.000e-002 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'ExtVlOSS' name 'VL extinction by POC' unit '(1/m)' modelled 0 default 0.000e+000 internal 0 specification 1 input_process 'ExtPODVL' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'ExtVlBak' name 'background extinction visible light' unit '(1/m)' modelled 0 default 8.000e-002 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'ExtVlPhyt' name 'VL extinction by phytoplankton' unit '(1/m)' modelled 0 default 0.000e+000 internal 0 specification 1 input_process 'ExtPhDVL' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'ExtVl' name 'total extinction coefficient visible light' unit '(1/m)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Extinc_VL' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'NCRatGreen' name 'N:C ratio Greens' unit '(gN/gC)' modelled 0 default 1.600e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'PCRatGreen' name 'P:C ratio Greens' unit '(gP/gC)' modelled 0 default 2.000e-002 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'Phyt' name 'total carbon in phytoplankton' unit '(gC/m3)' modelled 0 default 0.000e+000 internal 0 specification 1 input_process 'Phy_dyn' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'AlgN' name 'total nitrogen in algae' unit '(gN/m3)' modelled 0 default 0.000e+000 internal 0 specification 1 input_process 'Phy_dyn' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'AlgP' name 'total phosphorus in algae' unit '(gP/m3)' modelled 0 default 0.000e+000 internal 0 specification 0 input_process 'Phy_dyn' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'POCnoa' name 'total POC (no algae)' unit '(gC/m3)' modelled 0 default 0.000e+000 internal 0 specification 1 input_process 'POC_Dyn' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DayL' name 'daylength <0-1>' unit '(d)' modelled 0 default 5.800e-001 internal 0 specification 0 input_process 'Daylength' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'SWAdsP' name 'switch PO4 adsorption <0=Kd|1=Langmuir|2=pHdep>' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'KdPO4AAP' name 'distrib. coeff. (-) or ads. eq. const.' unit '(m3/gP)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TcDenWat' name 'temperature coefficient for denitrification' unit '(-)' modelled 0 default 1.070e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'COXDEN' name 'critical oxygen concentration for denitrification' unit '(g/m3)' modelled 0 default 3.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RcDenWat' name 'first-order denitrification rate in water column' unit '(1/d)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'OOXDEN' name 'optimum oxygen concentration for denitrification' unit '(gO2/m3)' modelled 0 default 1.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TcNit' name 'temperature coefficient for nitrification' unit '(-)' modelled 0 default 1.070e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'CTNit' name 'critical temperature for nitrification' unit '(oC)' modelled 0 default 3.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'COXNIT' name 'critical oxygen concentration for nitrification' unit '(g/m3)' modelled 0 default 1.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RcNit' name 'first-order nitrification rate' unit '(1/d)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'OOXNIT' name 'optimum oxygen concentration for nitrification' unit '(gO2/m3)' modelled 0 default 5.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'SWRear' name 'switch for oxygen reaeration formulation (1-12)' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'KLRear' name 'reaeration transfer coefficient' unit '(m/d)' modelled 0 default 1.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TCRear' name 'temperature coefficient for rearation' unit '(-)' modelled 0 default 1.016e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'SaturOXY' name 'saturation concentration' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SaturOXY' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'CTMin' name 'critical temperature for mineralisation' unit '(oC)' modelled 0 default 3.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RcDetC' name 'first-order mineralisation rate DetC' unit '(1/d)' modelled 0 default 1.200e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TcDetC' name 'temperature coefficient for mineralisation DetC' unit '(-)' modelled 0 default 1.047e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RcDetN' name 'first-order mineralisation rate DetN' unit '(1/d)' modelled 0 default 1.200e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TcDetN' name 'temperature coefficient for mineralisation DetN' unit '(-)' modelled 0 default 1.047e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RcDetP' name 'first-order mineralisation rate DetP' unit '(1/d)' modelled 0 default 8.000e-002 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TcDetP' name 'temperature coefficient for mineralisation DetP' unit '(-)' modelled 0 default 1.047e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'fSOD' name 'zeroth-order sediment oxygen demand flux' unit '(gO2/m2/d)' modelled 0 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RcSOD' name 'decay rate SOD at 20 oC' unit '(1/d)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TcGroGreen' name 'temperature coeff. for growth processes Greens' unit '(-)' modelled 0 default 1.040e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TcDecGreen' name 'temp. coeff. for respiration and mortality Greens' unit '(-)' modelled 0 default 1.070e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'OptDLGreen' name 'daylength for growth saturation Greens' unit '(d)' modelled 0 default 5.800e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'PrfNH4gree' name 'ammonium preferency over nitrate Greens' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'KMDINgreen' name 'half-saturation value N Greens' unit '(gN/m3)' modelled 0 default 5.000e-003 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'KMPgreen' name 'half-saturation value P Greens' unit '(gP/m3)' modelled 0 default 1.000e-003 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RadSatGree' name 'total radiation growth saturation greens' unit '(W/m2)' modelled 0 default 3.000e+001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TFGroGreen' name 'temperature function growth Greens <0-1>' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 1 input_process 'TF_Green' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'LimDLGreen' name 'daylength limitation function for Greens <0-1>' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 1 input_process 'DL_Green' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'LimNutGree' name 'nutrient limitation function Greens <0-1>' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 1 input_process 'NLGreen' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'LimRadGree' name 'radiation limitation function Greens <0-1>' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 1 input_process 'Rad_Green' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'TFMrtGreen' name 'temperature function mortality Greens <0-1>' unit '(-)' modelled 0 default 1.000e+000 internal 0 specification 1 input_process 'TF_Green' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'PPMaxGreen' name 'maximum production rate Greens' unit '(1/d)' modelled 0 default 1.800e+000 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'MRespGreen' name 'maintenance respiration Greens st.temp' unit '(-)' modelled 0 default 4.500e-002 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'GRespGreen' name 'growth respiration factor Greens' unit '(-)' modelled 0 default 1.500e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'Mort0Green' name 'mortality rate constant Greens' unit '(1/d)' modelled 0 default 3.500e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'SalM1Green' name 'lower salinity limit for mortality Greens' unit '(g/kg)' modelled 0 default -9.990e+002 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'SalM2Green' name 'upper salinity limit for mortality Greens' unit '(g/kg)' modelled 0 default -9.990e+002 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'fPPGreen' name 'net primary production of Greens' unit '(gC/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'GroMrt_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fcPPGreeN' name 'numerical maximum flux Greens' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PPrLim' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fcPPDiat' name 'numerical maximum flux Diatoms' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PPrLim' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fMrtGreen' name 'mortality flux Greens' unit '(gC/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'GroMrt_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrAutGreen' name 'fraction autolysis Greens' unit '(-)' modelled 0 default 3.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'FrDetGreen' name 'fraction to detritus by mortality Greens' unit '(-)' modelled 0 default 7.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'RcGroGreen' name 'primary production rate (minus respiration) Greens' unit '(1/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'GroMrt_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'RcRespGree' name 'respiration rate Greens' unit '(1/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'GroMrt_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'SS' name 'suspended solids' unit '(g/m3)' modelled 0 default 1.000e+001 internal 0 specification 0 input_process 'Compos' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'VSedIM1' name 'sedimentation velocity IM1' unit '(m/d)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process 'CalVS_IM1' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'Tau' name 'total bottom shear stress' unit '(N/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'CalTau' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TaucSIM1' name 'critical shear stress for sedimentation IM1' unit '(N/m2)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'VSedDetC' name 'sedimentation velocity DetC' unit '(m/d)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process 'CalVS_DetC' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'TauCSDetC' name 'critical shear stress for sedimentation DetC' unit '(N/m2)' modelled 0 default 1.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'fSedDetC' name 'sedimentation flux DetC' unit '(gC/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedDetC' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedIM1' name 'sedimentation flux IM1' unit '(g/m2/d)' modelled 0 default 0.000e+000 internal 0 specification 1 input_process 'Sed_IM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'VxSedIM1' name 'sedimentation velocity IM1' unit '(m/s)' modelled 0 default 0.000e+000 internal 0 specification 1 input_process 'Sed_IM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'QPIM1' name 'quality IM1 for P' unit '(gP/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'AdsPO4AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FPIM1' name 'fraction of P adsorbed on IM1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'AdsPO4AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FPIM2' name 'fraction of P adsorbed on IM2' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'AdsPO4AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FPIM3' name 'fraction of P adsorbed on IM3' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'AdsPO4AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DMS1' name 'total amount of dry matter in layer S1' unit '(gDM)' modelled 0 default 1.000e-001 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fResS1DM' name 'total resuspension flux DM from layer S1' unit '(g/m2/d)' modelled 0 default 0.000e+000 internal 0 specification 0 input_process 'Res_DM' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'FrIM1S1' name 'fraction IM1 in layer S1' unit '(gDM/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrIM2S1' name 'fraction IM2 in layer S1' unit '(gDM/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrIM3S1' name 'fraction IM3 in layer S1' unit '(gDM/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrDetCS1' name 'fraction DetC in layer S1' unit '(gC/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrOOCS1' name 'fraction OOC in layer S1' unit '(gC/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrGreenS1' name 'fraction Greens in layer S1' unit '(gC/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrDiatS1' name 'fraction Diatoms in layer S1' unit '(gC/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'RHOS1' name 'overall bulk density layer S1' unit '(g/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Chlfa' name 'Chlorophyll-a concentration' unit '(mg/m3)' modelled 0 default 0.000e+000 internal 0 specification 0 input_process 'Phy_dyn' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'LocalDepth' name 'depth from water surface to bottom of segment' unit '(m)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'TotDepth' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TauVELOC' name 'bottom shear stress caused by flow velocities' unit '(N/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'CalTau' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TauWIND' name 'bottom shear stress caused by wind' unit '(N/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'CalTau' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'CalVelTau' name 'calculated \'velocity\' from total tau' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'CalTau' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'ExtVlISS' name 'VL extinction by inorganic suspended matter' unit '(1/m)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Extinc_VL' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TIMS1' name 'total inorganic matter in layer S1' unit '(gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'POMS1' name 'Particulate Organic Matter in layer S1' unit '(gDW)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'IM1S1M2' name 'IM1 per m2 in layer S1' unit '(gDM/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'IM2S1M2' name 'IM2 per m2 in layer S1' unit '(gDM/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'IM3S1M2' name 'IM3 per m2 in layer S1' unit '(gDM/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DetCS1M2' name 'DetC per m2 in layer S1' unit '(gC/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'OOCS1M2' name 'OOC per m2 in layer S1' unit '(gC/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DiatS1M2' name 'Diatoms per m2 in layer S1' unit '(gC/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'GreenS1M2' name 'Greens per m2 in layer S1' unit '(gC/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'AAPS1M2' name 'adsorbed O-PO4 per m2 in layer S1' unit '(gP/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DetNS1M2' name 'DetN per m2 in layer S1' unit '(gN/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DetPS1M2' name 'DetP per m2 in layer S1' unit '(gP/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DetSiS1M2' name 'DetSi per m2 in layer S1' unit '(gSi/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'OONS1M2' name 'OON per m2 in layer S1' unit '(gN/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'OOPS1M2' name 'OOP per m2 in layer S1' unit '(gP/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'OOSiS1M2' name 'OOSi per m2 in layer S1' unit '(gSi/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrMFB1S1' name 'fraction MFB1 in layer S1' unit '(gC/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrMFB2S1' name 'fraction MFB2 in layer S1' unit '(gC/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'MFB1S1M2' name 'MFB1 per m2 in layer S1' unit '(gC/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'MFB2S1M2' name 'MFB2 per m2 in layer S1' unit '(gC/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TPM' name 'total particulate matter (including algae)' unit '(gdw/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TPMnoalg' name 'total particulate matter (excluding algae)' unit '(gdw/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TIM' name 'total inorganic matter' unit '(gDM/m3)' modelled 0 default 5.000e+001 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'POM' name 'particulate org. matter (incl algae)' unit '(gdw/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TOC' name 'total organic C (including algae)' unit '(gC/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'POC' name 'Particulate Organic Carbon (including algae)' unit '(gC/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TotN' name 'total nitrogen (including algae)' unit '(gN/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'KjelN' name 'Kjeldahl nitrogen' unit '(gN/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'DIN' name 'dissolved inorganic nitrogen' unit '(gN/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TON' name 'total organic N (including algae)' unit '(gN/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PON' name 'Particulate Organic Nitrogen (including algae)' unit '(gN/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TotP' name 'total phosphorus (including algae)' unit '(gP/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 1 end-process_parameter process_parameter 'TOP' name 'total organic P (including algae)' unit '(gP/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'POP' name 'particulate organic P (incl algae)' unit '(gP/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PIP' name 'Particulate Inorganic Phosphorus' unit '(gP/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrAAPTIM' name 'fraction AAP of total inorganic matter' unit '(gP/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrPAPTIM' name 'fraction PAP of total suspended solids' unit '(gP/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'TotSi' name 'total silica (including algae)' unit '(gSi/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'EqAAP' name 'equilibrium concentration of AAP' unit '(gP/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'AdsPO4AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'O2FuncDEN' name 'oxygen function for denitrification' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'DenWat_NO3' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'O2FuncNIT' name 'oxygen function for nitrification' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Nitrif_NH4' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'RCREAR' name 'rate constant for reaeration' unit '(1/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'RearOXY' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'SatPercOXY' name 'Actual saturation percentage O2' unit '(%)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'RearOXY' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'O2FuncBOD' name 'oxygen function for decay of CBOD' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 0 input_process 'DBOD_TEWOR' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'AgeFun' name 'age function for decay CBOD and NBOD' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'BOD5' name 'BOD5' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 0 input_process 'DBOD_TEWOR' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'BODu' name 'calculated carbonaceous BOD at ultimate' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 0 input_process 'DBOD_TEWOR' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'COD' name 'Chemical oxygen demand COD' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'BOD5-POC' name 'contribution of POC to BOD5' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'BODu-POC' name 'contribution of POC to calculated BODu' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'BOD5-Phyt' name 'contribution of phytoplankton to BOD5' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'BODu-Phyt' name 'contribution of Phyt to calculated BODu' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'BODN' name 'calculated nitrogenous BOD at ultimate' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'LimNgreen' name 'nitrogen limitation function Greens <0-1>' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NLGreen' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'LimPgreen' name 'phosphorus limitation function Greens <0-1>' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NLGreen' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'LimSigreen' name 'silicate limitation function Greens <0-1>' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NLGreen' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'RcMrtGreen' name 'mortality rate Greens' unit '(1/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'GroMrt_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FracUptNH4' name 'fraction of NH4 in uptake of nitrogen' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NutUpt_Alg' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'ReqDin' name 'uptake of nitrogen' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NutUpt_Alg' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PSedIM1' name 'sedimentation probability <0-1> IM1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_IM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PSedDetC' name 'sedimentation probability <0-1> DetC' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedDetC' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedDetN' name 'sedimentation flux DetN' unit '(gN/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedDetP' name 'sedimentation flux DetP' unit '(gP/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedDetSi' name 'sedimentation flux DetSi' unit '(gSi/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'VxSedDetN' name 'sedimentation velocity DetC' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'VxSedDetP' name 'sedimentation velocity DetP' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'VxSedDetSi' name 'sedimentation velocity DetSi' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PSedGreen' name 'sedimentation probability <0-1> Greens' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PSedBOD5' name 'sedimentation probability <0-1> CBOD5' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S_CBOD51' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'VxSedBOD5' name 'sedimentation velocity CBOD5' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S_CBOD51' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedTIM' name 'total sedimentation flux IM fractions' unit '(gDM/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sum_Sedim' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedPOC' name 'sum sedimentation flux POC' unit '(gC/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sum_Sedim' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'VxSedAAP' name 'sedimentation velocity AAP' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PResS1DM' name 'resuspension probability for layer S1 <0-inf>' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Res_DM' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'PResS2DM' name 'resuspension probability for layer S2 <0-inf>' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Res_DM' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DO' name 'dissolved oxygen concentration' unit '(gO2/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PosOXY' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'SecchiDept' name 'Secchi depth' unit '(m)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Secchi' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Rad' name 'irradiation at the segment upper-boundary' unit '(W/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'CalcRad' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Temp' name 'ambient water temperature' unit '(oC)' modelled 0 default 1.500e+001 internal 0 specification 0 input_process 'Temperatur' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'VWind' name 'wind speed' unit '(m/s)' modelled 0 default 3.000e+000 internal 0 specification 0 input_process 'Meteo' delft3d_par 1 output_par 0 end-process_parameter process_parameter 'dDumCompos' name 'dummy flux to access Compos' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dAdsPO4AAP' name 'adsorption flux PO4 to AAP' unit '(gP/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'AdsPO4AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDenitWat' name 'denitrification flux in the water column' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'DenWat_NO3' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dNitrif' name 'nitrification flux' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Nitrif_NH4' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dREAROXY' name 'reaeration flux of dissolved oxygen' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'RearOXY' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dCBOD5' name 'decay flux of CBOD5' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dCBOD5_2' name 'decay flux of CBOD5_2' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dCBODu' name 'decay flux of CBODu' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dCBODu_2' name 'decay flux of CBODu_2' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dNBOD5' name 'decay flux of NBOD5' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dNBODu' name 'decay flux of NBODu' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dCOD_Cr' name 'decay flux of COD_Cr' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dCOD_Mn' name 'decay flux of COD_Mn' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dOxyBODCOD' name 'oxygen consumption from decay BOD and COD' unit '(gO2/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'BODCOD' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dPPGreen' name 'net primary production of Greens' unit '(gC/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'GroMrt_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dMrtGreen' name 'mortality of Greens' unit '(gC/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'GroMrt_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dcPPGreeN' name 'correction flux Greens growth' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PPrLim' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dcPPDiat' name 'correction flux Diatoms growth' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PPrLim' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dNH4Upt' name 'NH4 uptake by algae growth' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NutUpt_Alg' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dNO3Upt' name 'uptake of NO3 by algae growth' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NutUpt_Alg' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dPO4Upt' name 'PO4 uptake by algae growth' unit '(gP/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NutUpt_Alg' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSIUpt' name 'Si uptake by algae growth' unit '(gSi/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'NutUpt_Alg' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedIM1' name 'sedimentation flux of IM1' unit '(g/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_IM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedDetC' name 'sedimentation flux DetC' unit '(gC/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedDetC' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedDetN' name 'sedimentation flux DetN' unit '(gN/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedDetP' name 'sedimentation flux DetP' unit '(gP/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedDetSi' name 'sedimentation flux DetSi' unit '(gSi/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'SedN_Det' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedGreen' name 'sedimentation flux Greens' unit '(gC/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_Gre' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedAAP' name 'sedimentation flux AAP (adsorbed PO4)' unit '(gP/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSWSedAAP' name 'sedimentation flux AAP' unit '(gP/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_AAP' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDumPosOXY' name 'dummy flux to access posoxy' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PosOXY' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDumSecchi' name 'dummy flux to access Secchi' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Secchi' delft3d_par 0 output_par 0 end-process_parameter