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  • Delft3D-FLOW requires the name of the file (*.grd) that defines the grid for the meteorological data. It is written in the header of the file with air pressure and so on.
  • Delft3D-WAQ requires the name of the LGRID and CCO files, so that the segment function files can be written properly. This information is needed by the postadapter as well, in order to export the results on a grid. To avoid duplication, the information is given in the general section.

Section: <preAdapter>

The <preAdapter> section contains one keyword only, the name of the timeseries (found in the timeseries XML file exported by Delft-FEWS) that is to be used as to determine the time frame of the simulation.

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For map stacks you specify the parameter and the layer for which the results are to be transferred to Delft-FEWS (Delft-FEWS currently only handles two-dimensional data).

For reference see the following examples:

Delft3D-FLOW:

Code Block
Delft3D-WAQ:
<timeSeries parameter="APHANIZO" location="Stn_1 (1)" layer="1" fewsParameter="APHANIZO.simulated" fewsLocation="UP.STN.1.L1.WQ"/>
 <timeSeries parameter="Chlfa" location="Stn_1 (1)" layer="1" fewsParameter="Chlorophyll.simulated" fewsLocation="UP.STN.1.L1.WQ"/>
 <timeSeries parameter="EColi" location="Stn_1 (1)" layer="1" fewsParameter="E Coli.simulated" fewsLocation="UP.STN.1.L1.WQ"/>
 <timeSeries parameter="EnCoc" location="Stn_5 (1)" layer="1" fewsParameter="Entero.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="FColi" location="Stn_5 (1)" layer="1" fewsParameter="F Coli.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="FDIATOMS" location="Stn_5 (1)" layer="1" fewsParameter="FDIATOMS.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="GREENS" location="Stn_5 (1)" layer="1" fewsParameter="Greens.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="IM1" location="Stn_5 (1)" layer="1" fewsParameter="IM1.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="IM2" location="Stn_5 (1)" layer="1" fewsParameter="IM2.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="MICROCYS" location="Stn_5 (1)" layer="1" fewsParameter="MICROCYS.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="NH3" location="Stn_5 (1)" layer="1" fewsParameter="NH3.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="NH4" location="Stn_5 (1)" layer="1" fewsParameter="NH4.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="NO3" location="Stn_5 (1)" layer="1" fewsParameter="NO3.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="OSCILAT" location="Stn_5 (1)" layer="1" fewsParameter="OSCILAT.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="OXY" location="Stn_5 (1)" layer="1" fewsParameter="OXY.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="PO4" location="Stn_5 (1)" layer="1" fewsParameter="PO4.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="POC" location="Stn_5 (1)" layer="1" fewsParameter="POC.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="Phyt" location="Stn_5 (1)" layer="1" fewsParameter="Phyt.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="SO4" location="Stn_5 (1)" layer="1" fewsParameter="SO4.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="SS" location="Stn_5 (1)" layer="1" fewsParameter="SS.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="SUD" location="Stn_5 (1)" layer="1" fewsParameter="SUD.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="Salinity" location="Stn_5 (1)" layer="1" fewsParameter="Salinity.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="SecchiDept" location="Stn_5 (1)" layer="1" fewsParameter="SecchiDept.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="Si" location="Stn_5 (1)" layer="1" fewsParameter="Si.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="TOC" location="Stn_5 (1)" layer="1" fewsParameter="TOC.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="Temp" location="Stn_5 (1)" layer="1" fewsParameter="T.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="TotN" location="Stn_5 (1)" layer="1" fewsParameter="TNitrogen.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="TotP" location="Stn_5 (1)" layer="1" fewsParameter="TPhosphate.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="TotalDepth" location="Stn_5 (1)" layer="1" fewsParameter="TotalDepth.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
 <timeSeries parameter="pH" location="Stn_5 (1)" layer="1" fewsParameter="PH.simulated" fewsLocation="UP.STN.5.L1.WQ"/>
Delft3D-WAVE:
      <map parameter="Mean wave direction" layer="1" fewsParameter="Wave.direction.mean.ext" fewsLocation="Guanabara.wave.ext"/>
       <map parameter="Mean wave period" layer="1" fewsParameter="Wave.period.mean.ext" fewsLocation="Guanabara.wave.ext"/>
       <map parameter="Peak wave direction" layer="1" fewsParameter="Wave.direction.peak.ext" fewsLocation="Guanabara.wave.ext"/>
       <map parameter="Peak wave period" layer="1" fewsParameter="Wave.period.peak.ext" fewsLocation="Guanabara.wave.ext"/>
       <map parameter="Sign.wave height" layer="1" fewsParameter="Wave.sign.height.ext" fewsLocation="Guanabara.wave.ext"/>
 water level
Template files and keywords
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