configuration 'WAQ' serial 2017030901 substance_group 'Particulate inorganic matter' substance 'IM1' name 'inorganic matter (IM1)' unit '(gDM/m3)' active 1 selected_processes abbrev 'MakOOC' name 'Derive POCnoa from IM-fractions' active 0 abbrev 'Compos' name 'Composition' active 1 abbrev 'Sed_IM1' name 'Sedimentation IM1' active 1 abbrev 'S12TraIM1' name 'Resuspension, transport in S1-S2 IM1' active 1 abbrev 'AtmDep_IM1' name 'Atmospheric deposition IM1' active 0 abbrev 'Dfwast_IM1' name 'Diffusive waste IM1' active 0 abbrev 'Secchi' name 'Secchi depth for visible-light (370-680nm)' active 0 abbrev 'TraSe2_IM1' name 'Total of transport in sediment for IM1' active 0 end-selected_processes end-substance substance 'IM1S1' name 'IM1 in layer S1' unit '(gDM/m2)' active 0 selected_processes abbrev 'MakOOCS1' name 'Derive POC in S1 from IM-fractions in S1' active 0 abbrev 'S1_Comp' name 'Composition sediment layer S1' active 1 abbrev 'Sed_IM1' name 'Sedimentation IM1' active 1 abbrev 'S12TraIM1' name 'Resuspension, transport in S1-S2 IM1' active 1 end-selected_processes end-substance end-substance_group substance_group 'Trace metals' substance 'Cd' name 'Cadmium (Cd)' unit '(g/m3)' active 1 selected_processes abbrev 'Sed_Cd' name 'Sedimentation adsorbed Cd' active 1 abbrev 'S12TraCd' name 'Resuspension, transport in S1-S2 Cd' active 1 abbrev 'AtmDep_Cd' name 'Atmospheric deposition Cd' active 0 abbrev 'Dfwast_Cd' name 'Diffusive waste Cd' active 0 end-selected_processes end-substance substance 'CdS1' name 'Cd in layer S1' unit '(g/m2)' active 0 selected_processes abbrev 'Sed_Cd' name 'Sedimentation adsorbed Cd' active 1 abbrev 'S12TraCd' name 'Resuspension, transport in S1-S2 Cd' active 1 end-selected_processes end-substance end-substance_group 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 'IM1S1' name 'IM1 in layer S1' unit '(gDM/m2)' modelled 1 default 0.000e+000 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Cd' name 'Cadmium (Cd)' unit '(g/m3)' modelled 1 default -9.990e+002 internal 0 specification 0 input_process ' ' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'CdS1' name 'Cd in layer S1' unit '(g/m2)' modelled 1 default -9.990e+002 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 'Velocity' name 'horizontal flow velocity' unit '(m/s)' modelled 0 default 5.000e-001 internal 0 specification 1 input_process 'Veloc' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'CHEZY' name 'Chezy coefficient' unit '(m0.5/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Chezy' 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 '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 'TIM' name 'total inorganic matter' unit '(gDM/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 '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 'SS' name 'suspended solids' unit '(g/m3)' modelled 0 default 1.000e+001 internal 0 specification 1 input_process 'Compos' delft3d_par 0 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 'C-NPOC1' name 'C:N ratio fast decaying detritus' unit '(gC/gN)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-PPOC1' name 'C:P ratio fast decaying detritus' unit '(gC/gP)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-SPOC1' name 'C:S ratio fast decaying detritus' unit '(gC/gS)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-NPOC2' name 'C:N ratio medium decaying detritus' unit '(gC/gN)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-PPOC2' name 'C:P ratio medium decaying detritus' unit '(gC/gP)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-SPOC2' name 'C:S ratio medium decaying detritus' unit '(gC/gS)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-NPOC3' name 'C:N ratio slow detritus' unit '(gC/gN)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-PPOC3' name 'C:P ratio slow detritus' unit '(gC/gP)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-SPOC3' name 'C:S ratio slow detritus' unit '(gC/gS)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-NPOC4' name 'C:N ratio refractory detritus' unit '(gC/gN)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-PPOC4' name 'C:P ratio refractory detritus' unit '(gC/gP)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'C-SPOC4' name 'C:S ratio refractory detritus' unit '(gC/gS)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Compos' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedIM1' name 'sedimentation flux IM1 towards S1' 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 'DMS1' name 'total amount of dry matter in layer S1' unit '(gDM/m2)' modelled 0 default 1.000e-006 internal 0 specification 1 input_process 'S1_Comp' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'ZResDM' name 'zeroth-order resuspension flux' unit '(gDM/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 'TaucRS1DM' name 'critical shear stress for resuspension DM layer S1' unit '(N/m2)' modelled 0 default 2.000e-001 internal 0 specification 0 input_process ' ' delft3d_par 1 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 1 input_process 'Res_DM' 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 '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 'N-CDetCS1' name 'N:C ratio Detritus S1' unit '(gN/gC)' 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 'P-CDetCS1' name 'P:C ratio Detritus S1' unit '(gP/gC)' 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 'S-CDetCS1' name 'Si:C ratio Detritus S1' unit '(gSi/gC)' 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 'N-COOCS1' name 'N:C ratio Other organics S1' unit '(gN/gC)' 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 'P-COOCS1' name 'P:C ratio Other organics S1' unit '(gP/gC)' 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 'S-COOCS1' name 'Si:C ratio Other organics S1' unit '(gSi/gC)' 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 'FrMPB1S1' name 'fraction MPB1 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 '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 'FrAAPS1' name 'fraction AAP in layer S1' unit '(gP/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 '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 'QCdIM1' name 'quality IM1 for Cd' unit '(gCd/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'QCdDMS1' name 'overall sediment quality for Cd in S1' unit '(mgCd/kgDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FlowDir' name 'flow direction relative to North' unit '(degrees)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Veloc' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Veloc1' name 'horizontal flow velocity first direction' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Veloc' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Veloc2' name 'horizontal flow velocity second direction' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Veloc' 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 'TIMS1' name 'total inorganic matter 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 'POMS1' name 'Particulate Organic Matter in layer S1' unit '(gDW/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 '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 'FrMPB2S1' name 'fraction MPB2 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 'MPB1S1' name 'MPB1 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 'MPB2S1' name 'MPB2 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 '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 '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 0 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 0 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 0 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 'FrVAPTIM' name 'fraction VIVP and APATPP total susp 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 'TOSnoa' name 'total organic S (no algae)' unit '(gS/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 '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 '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 'FrCdDis' name 'fraction free dissolved Cd in water column' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdDOC' name 'fraction Cd adsorbed to DOC' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DisCd' name 'free dissolved Cd in water column' unit '(gCd/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DOCCd' name 'Cd adsorbed to DOC' unit '(gCd/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'Cdtot' name 'total concentration Cd' unit '(g/m3)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'QCdSS' name 'overall quality suspended solid for Cd' unit '(mgCd/kgDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'KdCdSS' name 'overall partition coefficient Cd in SS' unit '(m3/kgDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartWK_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdDisS1' name 'fraction free dissolved Cd in layer S1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdDOCS1' name 'fraction Cd adsorbed to DOC in layer S1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdIM1S1' name 'fraction Cd adsorbed to IM1 in layer S1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdIM2S1' name 'fraction Cd adsorbed to IM2 in layer S1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdIM3S1' name 'fraction Cd adsorbed to IM3 in layer S1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdPOCS1' name 'fraction Cd adsorbed to POC in layer S1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'FrCdPHYTS1' name 'fraction Cd adsorbed to phytoplankton in layer S1' unit '(-)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DisCdS1' name 'free dissolved Cd in pore water layer S1' unit '(gCd/m3p)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'DOCCdS1' name 'Cd adsorbed to DOC in pore water layer S1' unit '(gCd/m3p)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'QCdIM1S1' name 'quality IM1 for Cd in layer S1' unit '(gCd/gDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'CdS1tot' name 'total mass Cd in layer S1' unit '(g/m2)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'KdCdDMS1' name 'overall partition coefficient Cd in layer S1' unit '(m3/kgDM)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'PartS1_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fSedCd' name 'sedimentation flux Cd towards S1' unit '(gCd/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'VxSedCd' name 'sedimentation velocity Cd' unit '(m/s)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fResS1Cd' name 'resuspension flux Cd from layer S1' unit '(gCd/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fResS2Cd' name 'resuspension flux Cd from layer S2' unit '(gCd/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fBurS1Cd' name 'burial flux Cd from layer S1' unit '(gCd/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fBurS2Cd' name 'burial flux Cd from layer S2' unit '(gCd/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fDigS1Cd' name 'digging flux Cd to layer S1' unit '(gCd/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'fDigS2Cd' name 'digging flux Cd to layer S2' unit '(gCd/m2/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDumS1Comp' name 'dummy flux to access S1_Comp' unit '(-)' 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 '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 'dSedIM1' name 'sedimentation flux of IM1 towards S1' 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 'dResS1IM1' name 'resuspension flux IM1 from layer S1' unit '(g/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraIM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dResS2IM1' name 'resuspension flux IM1 from layer S2' unit '(g/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraIM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dBurS1IM1' name 'burial flux IM1 from layer S1' unit '(g/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraIM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dBurS2IM1' name 'burial flux IM1 from layer S2' unit '(g/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraIM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDigS1IM1' name 'digging flux IM1 to layer S1' unit '(g/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraIM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDigS2IM1' name 'digging flux IM1 to layer S2' unit '(g/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraIM1' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dSedCd' name 'sedimentation flux Cd towards S1' unit '(gCd/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'Sed_Cd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dResS1Cd' name 'resuspension flux Cd from layer S1' unit '(gCd/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dResS2Cd' name 'resuspension flux Cd from layer S2' unit '(gCd/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dBurS1Cd' name 'burial flux Cd from layer S1' unit '(gCd/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dBurS2Cd' name 'burial flux Cd from layer S2' unit '(gCd/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDigS1Cd' name 'digging flux Cd to layer S1' unit '(gCd/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter process_parameter 'dDigS2Cd' name 'digging flux Cd to layer S2' unit '(gCd/m3/d)' modelled 0 default -9.990e+002 internal 0 specification 1 input_process 'S12TraCd' delft3d_par 0 output_par 0 end-process_parameter