XBeach
XBeach is a two-dimensional model for wave propagation, long waves and mean flow, sediment transport and morphological changes of the nearshore area, beaches, dunes and backbarrier during storms.
Example configuration
XBeachAdapterRun.xml
Export activities
The first steps in the general adapter run are the netcdf and run file export activities, the exported files will be a netcdf file (swanxbinput.nc) containing Swan golf spectra over time and a netcdf file (1xbinput.nc) containing water level over time. The exported run file will contain properties that can be used by the pre adapter. For example:
- TIDE_VARIABLE: name of netcdf variable containing water level
- PARAM_TUNITS: meaning of the time values in XBeach input and output files. For example "seconds since 2001-01-01"
- PARAM_OUTPUTFORMAT: XBeach parameter specifying the output format. Has to be "netcdf" for FEWS to import
- PARAM_TSTOP: XBeach parameter specifying end of XBeach run: for example "36000" which in this case means after 10 hours
Properties starting with "PARAM_" will be passed literally to XBeach without "PARAM_"
| Code Block |
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<exportActivities>
<exportNetcdfActivity>
<exportFile>swanxbinput.nc</exportFile>
<timeSeriesSets>
<timeSeriesSet>
<moduleInstanceId>Run_XBeach</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>EnDens</parameterId>
<domainParameterId>AFREQ</domainParameterId>
<domainParameterId>NDIR</domainParameterId>
<locationId>Dummy</locationId>
<timeSeriesType>external historical</timeSeriesType>
<timeStep unit="hour"/>
<relativeViewPeriod unit="hour" start="-24" end="0"/>
<readWriteMode>add originals</readWriteMode>
<synchLevel>1</synchLevel>
</timeSeriesSet>
</timeSeriesSets>
</exportNetcdfActivity>
<exportNetcdfActivity>
<exportFile>1xbinput.nc</exportFile>
<timeSeriesSets>
<timeSeriesSet>
<moduleInstanceId>Run_XBeach</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>H_mean</parameterId>
<locationId>Dummy</locationId>
<timeSeriesType>external historical</timeSeriesType>
<timeStep unit="minute" multiplier="10"/>
<relativeViewPeriod unit="hour" start="-24" end="0"/>
<readWriteMode>add originals</readWriteMode>
</timeSeriesSet>
</timeSeriesSets>
</exportNetcdfActivity>
<exportRunFileActivity>
<description>This pi run file is passes as argument to XBeachPreAdapter</description>
<exportFile>pi_run\pi-run.xml</exportFile>
<properties>
<description>Specific configuration required for MyPreAdapter and MyPostAdapter</description>
<string key="TIDE_VARIABLE" value="H_mean"/>
<string key="TIME_VARIABLE" value="time"/>
<string key="PARAM_TUNITS" value="seconds since 2001-01-01"/>
<string key="PARAM_OUTPUTFORMAT" value="netcdf"/>
<string key="PARAM_TSTOP" value="36000"/>
</properties>
</exportRunFileActivity>
</exportActivities>
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Execute activities
The next steps are the execute activities. The first will be the pre adapter. This program will read the pi-run.xml input file and use the properties for instructions on which directory and files should be used to convert to the correct XBeach input format.
Golf spectrum conversion
In this example "swanxbinput.nc" will be used to write the golf spectra into the following format:
- waves.txt referencing to golf spectrum files and a time of how long these should be used in each calculation step
| Code Block |
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FILELIST
3600.0 1.0 egx.loct001.sp2
3600.0 1.0 egx.loct002.sp2
3600.0 1.0 egx.loct003.sp2
3600.0 1.0 egx.loct004.sp2
3600.0 1.0 egx.loct005.sp2
3600.0 1.0 egx.loct006.sp2
3600.0 1.0 egx.loct007.sp2
3600.0 1.0 egx.loct008.sp2
3600.0 1.0 egx.loct009.sp2
3600.0 1.0 egx.loct010.sp2
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- egx.loct001.sp2 containing a golf spectrum
XBeach Module Adapter - summary
This page describes the XBeach module adapter, its functions, and provides an example for configuring a XBeach run in FEWS.
The pre-adapter creates the model specific output by replacing tags in template files:
- zs0file.txt for water level input file zs0file.txt
- bcfile.txt and bc.timeXXX.sp2 for SWAN spectrum input files
- params.txt for run information
Furthermore, the pre-adapter writes log messages to a log file called xbeach.log.
There is no post-adapter, since XBeach can be configured to use netcdf as output format that is readable by FEWS.
XBeach pre-adapter
Model pre-adapter for running a XBeach model from Delft-FEWS.
Class name: nl.deltares.xbeach.XBeachPreAdapter
Properties
No specific properties need to be configured for a model run.
There is however extra functionality provided via the properties but this is not needed if the model is setup correctly.
Configured properties starting with "PARAM_" will be added or replaced literally without "PARAM_" (and in lower case) in the params.txt file which defines the parameters for an XBeach model run.
This functionality should only be used as a debug option and only by someone that understands the XBeach properties in params.txt. To setup a model make sure you use a correctly configured params.txt so this functionality is not needed.
Notes for users
- For all files that are written by this adapter, if the file to be written already exists, then it will be overwritten.
- This program writes log messages to a log file called xbeach.log.
- This program does not make use of a template file, parameters are automatically added and replaced in params.txt without the use of tags.
- This program uses the information in the specified netcdf run file as input and uses this information to do the following actions:
- Create the water level input file: zs0file.txt, see water level conversion
- Create the SWAN spectrum input files bcfile.txt and bc.timeXXX.sp2, see wave spectrum conversion
- Replace or add the parameters 'tstart' and 'tstop' in params.txt, see parameter conversion
System requirements
- This program needs Java version 1.7 or higher.
- This program needs the following Java libraries:
- castor-0.9.5.jar
- commons-httpclient-3.0.1.jar
- Delft_Util.jar
- fews-xbeach-adapter.jar
- log4j-1.2.14.jar
- netcdf-4.2.jar
- slf4j-api-1.5.6.jar
- slf4j-log4j12-1.5.6.jar
- xercesImpl.jar
Xbeach post-adapter
There is no need for an Xbeach post-adapter since XBeach can be configured to use netcdf as output format that is readable by FEWS.
Example configuration generalAdapterRun
A complete example model run configuration file can be found here: XBeachAdapterRun.xml
Information how to prepare a FEWS environment to be able to use the FEWS model adapter can be found here: XBeach FEWS setup
Start up activities
As a first activity it can be useful to delete all files present in the workDir, if for example it would be filled with files from a previous run.
| Code Block |
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| xml |
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| xml |
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| title | start up activities |
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<startUpActivities>
<purgeActivity>
<filter>workDir*</filter>
</purgeActivity>
</startUpActivities>
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Export activities
The first steps in the general adapter run are the data set, netcdf and run file export activities. The <exportDataSetActivity> will extract a zip file with the module instance id as file name located in "Config\ModuleDataSetFiles\" of the FEWS environment to the workdir. The <exportNetcdfActivity>'s will be a netcdf file (bcfile.nc) containing Swan wave spectra over time and a netcdf file (zs0file.nc) containing water level over time. The <exportNetcdfRunFileActivity> will be a netcdf run file that contains information needed by the pre-adapter. The information will be automatically filled by the general adapter but properties can be configured as extra information. For example properties starting with "PARAM_" will be added or replaced literally without "PARAM_" (and in lower case) in the params.txt file which defines the parameters for an XBeach model run. An example is given in the config below as <string key="PARAM_OUTPUTFORMAT" value="netcdf"/> this adds or replaces parameter 'outputformat' in params.txt and assigns the value 'netcdf'. All parameters should however be already correctly set in params.txt so these property should not be necessary.
| Code Block |
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| xml |
|---|
| xml |
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| title | export activities |
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<exportActivities>
<exportDataSetActivity>
<moduleInstanceId>Run_XBeach</moduleInstanceId>
</exportDataSetActivity>
<exportNetcdfActivity>
<exportFile>bcfile.nc</exportFile>
<timeSeriesSets>
<timeSeriesSet>
<moduleInstanceId>Run_XBeach</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>EnDens</parameterId>
<domainParameterId>AFREQ</domainParameterId>
<domainParameterId>NDIR</domainParameterId>
<locationId>Dummy</locationId>
<timeSeriesType>external historical</timeSeriesType>
<timeStep unit="hour"/>
<relativeViewPeriod unit="hour" start="-24" end="0"/>
<readWriteMode>add originals</readWriteMode>
<synchLevel>1</synchLevel>
</timeSeriesSet>
</timeSeriesSets>
</exportNetcdfActivity>
<exportNetcdfActivity>
<exportFile>zs0file.nc</exportFile>
<timeSeriesSets>
<timeSeriesSet>
<moduleInstanceId>Run_XBeach</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>H_mean</parameterId>
<locationId>Dummy</locationId>
<timeSeriesType>external historical</timeSeriesType>
<timeStep unit="minute" multiplier="10"/>
<relativeViewPeriod unit="hour" start="-24" end="0"/>
<readWriteMode>add originals</readWriteMode>
</timeSeriesSet>
</timeSeriesSets>
</exportNetcdfActivity>
<exportNetcdfRunFileActivity>
<description>This run file is passed as argument to XBeachPreAdapter</description>
<exportFile>run.nc</exportFile>
<properties>
<string key="PARAM_OUTPUTFORMAT" value="netcdf"/>
</properties>
</exportNetcdfRunFileActivity>
</exportActivities>
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Execute activities
The next steps are the execute activities.
The first will be the pre-adapter. This program will read the run.nc input file and use the contents for instructions on which directory and files should be used to convert to the correct XBeach input format. The pre-adapter generates a log file called XBeach.log, which can be read into FEWS by coupling line patterns to FEWS log messages.
The second execute activity will be the module run. XBeach generates different log files with different meaning, in the configuration below, all line from XBerror.txt are coupled to error messages in FEWS, all lines from XBwaring.txt are coupled to info messages in FEWS and all lines in XBlog.txt are coupled to debug messages in FEWS.
| Code Block |
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| xml |
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| xml |
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| title | execute activities |
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<executeActivities>
<executeActivity>
<command>
<className>nl.deltares.xbeach.XBeachPreAdapter</className>
<binDir>adapter\bin</binDir>
</command>
<arguments>
<argument>run.nc</argument>
</arguments>
<logFile>
<file>XBeach.log</file>
<errorLinePattern>ERROR*</errorLinePattern>
<warningLinePattern>WARN*</warningLinePattern>
<infoLinePattern>INFO*</infoLinePattern>
<debugLinePattern>DEBUG*</debugLinePattern>
</logFile>
<timeOut>99999999</timeOut>
</executeActivity>
<executeActivity>
<command>
<executable>xbeach.exe</executable>
</command>
<logFile>
<file>XBerror.txt</file>
<errorLinePattern>*</errorLinePattern>
</logFile>
<logFile>
<file>XBwarning.txt</file>
<infoLinePattern>*</infoLinePattern>
</logFile>
<logFile>
<file>XBlog.txt</file>
<debugLinePattern>*</debugLinePattern>
</logFile>
<timeOut>99999999</timeOut>
</executeActivity>
</executeActivities>
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| Anchor |
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| wavespectrumconversion |
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| wavespectrumconversion |
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Wave spectrum conversion
"bcfile.nc" will be used to write the wave spectra into the following format:
- bcfile.txt referencing to wave spectrum files and a time of how long these should be used in each calculation step
| Code Block |
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FILELIST
3600.0 1.0 bc.time001.sp2
3600.0 1.0 bc.time002.sp2
3600.0 1.0 bc.time003.sp2
3600.0 1.0 bc.time004.sp2
3600.0 1.0 bc.time005.sp2
3600.0 1.0 bc.time006.sp2
3600.0 1.0 bc.time007.sp2
3600.0 1.0 bc.time008.sp2
3600.0 1.0 bc.time009.sp2
3600.0 1.0 bc.time010.sp2
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- bc.time001.sp2 containing a wave spectrum
- The conversion will use either "EnDens" or "VaDens" variable from "bcfile.nc" for the values, using the unitstring specified with the variable
| Code Block |
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| none |
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| none |
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| title | bc.time001.sp2 |
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SWAN 1 Swan standard spectral file, version
$ Data exported by FEWS for SWAN
$ Project: ; run number:
TIME time-dependent data
1 time coding option
LONLAT locations in spherical coordinates
1 number of locations
4.6019540 52.6194688
AFREQ 1/s
25 number of frequencies
0.0500
0.0566
0.0642
...
0.7791
0.8827
1.0000
NDIR degrees
36 number of directions
265.0000
255.0000
245.0000
...
-65.0000
-75.0000
-85.0000
QUANT
1 number of quantities in table
VaDens id
m2/Hz/degrees unit
-0.9900E+02 exception value
20010101.000000 date and time
FACTOR
0.0011500214
0 0 0 |
| Code Block |
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SWAN 1 Swan standard spectral file, version
$ Data exported by FEWS for SWAN
$ Project: ; run number:
TIME time-dependent data
1 time coding option
LONLAT locations in spherical coordinates
1 number of locations
4.6019540 52.6194688
AFREQ 1/s
25 number of frequencies
0.0500
0.0566
0.0642
...
0.7791
0.8827
1.0000
NDIR degrees
36 number of directions
265.0000
255.0000
245.0000
...
-65.0000
-75.0000
-85.0000
QUANT
1 number of quantities in table
EnDens id
m unit
-0.9900E+02 exception value
20010101.000000 date and time
FACTOR
0.0011500214
0 0 0 0 0 0 0 0 0 0 ... 0 0 0
0 0 0 0 0 0 0 0 0 0 ... 0 0 0
0 0 0 0 0 0 0 0 0 0 ... 0 0 0
1 1 0 0 0 0 0 0 0 0 ... 0 0 1
40 27 9 3 3 3 2 0 0 0 ... 2 9 28
610 294 70 17 24 31 17 0 0 0 ... 67 303 626
4916 1621 268 57 119 193 145 23 0 1 ... 1780 5295 7229
13782 3341 415 94 287 659 803 340 0 6 ... 14433 28039 27099
14186 2446 257 68 290 982 1874 1407 5 3 ... 52381 62127 39577
10369 1638 231 37 90 431 1241 1598 227 0 ... 99999 80353 37089
8225 1923 361 54 17 70 324 770 448 0 ... 77305 54223 24535
6742 1962 381 88 21 6 30 143 211 0 ... 42814 28100 15442
5744 2480 622 147 34 5 1 8 30 0 ... 27283 16631 9808
4448 2618 1011 228 41 6 0 0 2 2 ... 15103 9139 6001
2853 2150 977 217 34 5 1 0 0 0 ...0 8682 5250 0 3507
1818 15880 752 0 160 20... 40 10 0
0 0 ...0 4838 2895 0 2116
1064 0 927 597 0 168 0 23 0 30 0 0... 0 0 0
... 23740 1383 1151
0 517 5340 423 0 142 230 20 0 0 0 0 ... 1182 7890 561
0 243 299 0
202 1 87 171 10 0 0 0 0 ...0 756 0 329 262
0 137 112... 87 0 51 0 12 1
40 0 27 0 9 0 3 0 3 ... 2433 98 2 120
0 86 400 34 0 18 ... 5 2 1 9 0 28
610 0 294 0 70 017 24 ... 13731 117 17 142
0 55 210 80 4... 67 2 303 0626
4916 1621 0 268 0 57 119 0 193 0145 23 ... 137 0 123 1 87
24... 1780 135295 7229
13782 33341 415 1 94 0 287 659 0 803 0340 0 0 06 ... 14433 28039 27099
8314186 2446 74 257 62
68 290 6 982 1874 7 1407 1 5 0 3 0 ... 52381 62127 39577
010369 1638 0231 37 0 90 0 431 1241 1598 227 0 ... 99999 80353 37089
8225 1923 361 58 54 27 17 16
70 324 6 770 3448 0 0... 77305 54223 24535
6742 1962 381 0 88 021 06 30 0 143 0211 0 ... 42814 28100 15442
39 5744 2480 20 10
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| Code Block |
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<executeActivities>
<executeActivity>
<command>
<className>com.deltares.fews.xbeachadapters.preadapter.XBeachPreAdapter</className>
<binDir>adapter\bin</binDir>
</command>
<arguments>
<argument>pi_run\pi-run.xml</argument>
</arguments>
<timeOut>99999999</timeOut>
</executeActivity>
<executeActivity>
<command>
<executable>runxb.bat</executable>
</command>
<timeOut>99999999</timeOut>
</executeActivity>
</executeActivities>
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Water level conversion
In this example "1xbinput.nc" will be used to write the time dependent water levels to a file named "tide.txt". The first column specifies the time (meaning defined in "PARAM_TUNITS") and the second column water level. For now the adapter only supports the water level as a single boundary condition but XBeach has to possibility to also use 2 or 4 resulting in 1 or 3 extra columns.
| Code Block |
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0.0000000e+000 -2.2000000e-002
6.0000000e+002 2.2000000e-002
1.2000000e+003 6.4999998e-002
1.8000000e+003 1.0800000e-001
2.4000000e+003 1.5200000e-001
3.0000000e+003 1.9400001e-001
3.6000000e+003 2.3700000e-001
4.2000000e+003 2.7900001e-001
4.8000000e+003 3.1999999e-001
5.4000000e+003 3.6100000e-001
6.0000000e+003 4.0099999e-001
6.6000000e+003 4.4100001e-001
7.2000000e+003 4.7900000e-001
7.8000000e+003 5.1700002e-001
8.4000000e+003 5.5400002e-001
9.0000000e+003 5.8999997e-001
9.6000000e+003 6.2400001e-001
1.0200000e+004 6.5700001e-001
1.0800000e+004 6.9000000e-001
1.1400000e+004 7.2000003e-001
1.2000000e+004 7.5000000e-001
1.2600000e+004 7.7800000e-001
1.3200000e+004 8.0500001e-001
1.3800000e+004 8.2999998e-001
1.4400000e+004 8.5299999e-001
1.5000000e+004 8.7500000e-001
1.5600000e+004 8.9499998e-001
1.6200000e+004 9.1399997e-001
1.6800000e+004 9.3000001e-001
1.7400000e+004 9.4599998e-001
1.8000000e+004 9.5899999e-001
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Parameter conversion
The pre adapter will also convert all run file string properties starting with "PARAM_" to XBeach parameters in "params.txt".
It reads an existing "params.txt" and searches for a line starting with the specified parameter and replaces the whole line with "parameter = value" or adds a new line in the same format when the parameter was not present yet.
622 147 34 5 1 8 30 0 ... 27283 16631 9808
4448 2618 1011 228 41 6 0 0 2 2 ... 15103 9139 6001
2853 2150 977 217 34 5 1 0 0 0 ... 8682 5250 3507
1818 1588 752 160 20 4 1 0 0 0 ... 4838 2895 2116
1064 927 597 168 23 3 0 0 0 0 ... 2374 1383 1151
517 534 423 142 23 2 0 0 0 0 ... 1182 789 561
243 299 202 87 17 1 0 0 0 0 ... 756 329 262
137 112 87 51 12 1 0 0 0 0 ... 243 98 120
86 40 34 18 5 1 0 0 0 0 ... 137 117 142
55 21 8 4 2 0 0 0 0 0 ... 137 123 87
24 13 3 1 0 0 0 0 0 0 ... 83 74 62
6 7 1 0 0 0 0 0 0 0 ... 58 27 16
6 3 0 0 0 0 0 0 0 0 ... 39 20 10
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| Anchor |
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| waterlevelconversion |
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| waterlevelconversion |
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Water level conversion
In this example "zs0file.nc" will be used to write the time dependent water levels to a file named "zs0file.txt". The first column specifies the time (meaning defined in "PARAM_TUNITS") and the second column water level. For now the adapter only supports the water level as a single boundary condition but XBeach has to possibility to also use 2 or 4 resulting in 1 or 3 extra columns.
| Code Block |
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0.0000000e+000 -2.2000000e-002
6.0000000e+002 2.2000000e-002
1.2000000e+003 6.4999998e-002
1.8000000e+003 1.0800000e-001
2.4000000e+003 1.5200000e-001
3.0000000e+003 1.9400001e-001
3.6000000e+003 2.3700000e-001
4.2000000e+003 2.7900001e-001
4.8000000e+003 3.1999999e-001
5.4000000e+003 3.6100000e-001
6.0000000e+003 4.0099999e-001
6.6000000e+003 4.4100001e-001
7.2000000e+003 4.7900000e-001
7.8000000e+003 5.1700002e-001
8.4000000e+003 5.5400002e-001
9.0000000e+003 5.8999997e-001
9.6000000e+003 6.2400001e-001
1.0200000e+004 6.5700001e-001
1.0800000e+004 6.9000000e-001
1.1400000e+004 7.2000003e-001
1.2000000e+004 7.5000000e-001
1.2600000e+004 7.7800000e-001
1.3200000e+004 8.0500001e-001
1.3800000e+004 8.2999998e-001
1.4400000e+004 8.5299999e-001
1.5000000e+004 8.7500000e-001
1.5600000e+004 8.9499998e-001
1.6200000e+004 9.1399997e-001
1.6800000e+004 9.3000001e-001
1.7400000e+004 9.4599998e-001
1.8000000e+004 9.5899999e-001
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| Anchor |
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| parameterconversion |
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| parameterconversion |
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Parameter conversion
It is possible to change model parameters as defined in params.txt from FEWS. The pre-adapter will convert all run file properties starting with "PARAM_" to XBeach parameters in "params.txt". Example: params.txt.
It reads the existing "params.txt" and searches for a line starting with the specified parameter and replaces the whole line with "parameter = value" or adds a new line in the same format when the parameter was not present yet.
| Code Block |
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| none |
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| none |
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| title | sample of params.txt |
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----- |
| Code Block |
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----------------------------------------------------
Grid input
nx = 154
ny = 70
xfile = x.grd
yfile = y.grd
xori = 101627.84
yori = 513562.63
alfa = -8
depfile = egmondxbeach.dep
posdwn = -1
thetanaut = 0
thetamin = -40
thetamax = 40
dtheta = 10
vardx = 1
----------------------------------------------------
Numerics input
CFL
Grid input
nx = 154
ny = 70
xfile = x.grd
yfile = y.grd
xori = 0101627.884
epsyori = 513562.63
depfile = 0egmondxbeach.01dep
----------------------------------------------------
TimeNumerics input
tstart = 0.
tstop = 36000
taper = 100
tintg = 3600
tintmCFL = 3600
tintp0.8
eps = 600.01
----------------------------------------------------
GeneralTime constants
rho input
tstart = 1025
g = 9.810.
tstop = 36000
----------------------------------------------------
BoundaryGeneral condition options
zs0file = tide.txt
tideloc = 1
zs0 = 0
paulrevere = 0
instat = 5
leftwave = 1
rightwave = 1constants
rho = 1025
g = 9.81
----------------------------------------------------
Wave calculation options
break = 1
roller = 1
beta = 0.1
refl = 0
gamma = 0.45
delta = 0.0
n = 10.
bcfile
Boundary condition options
zs0file = waveszs0file.txt
front tideloc = 0
snel = 1
oldwbc= 1
----------------------------------------------------
Wave calculation options
bcfile = 0bcfile.txt
----------------------------------------------------
Flow calculation options
nuh = 0.1
nuhfac = 1.0
C = 55.
umin = 0.01
----------------------------------------------------
Sediment transport calculation options
facua = 0.10
D50 = 0.0002
D90 = 0.0003
ngd = 1
nd --
Sediment transport calculation options
facua = 300.10
structD50 = 0
sedtrans = 1
sourcesink = 0.0002
----------------------------------------------------
Morphological calculation options
morfac = 10
morstart = 3600
wetslp = 0.15
morphology = 1
----------------------------------------------------
Output options
outputformat = netcdf
nglobalvar = 3
zs
zb
wetz
nmeanvar = 6
H
thetamean
uu
vv
DR
zs
tunits = seconds since 2001-01-01
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Executing model run
The next activity will be executing the XBeach model run. So far this This is done by a .bat file to be able to run the running xbeach.exe in a other directory the workdir containing the input files. It would be preferable to change this in such a way that the .bat file will not be needed.model files.
| Code Block |
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| xml |
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| xml |
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| title | module run execute activity |
|---|
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| Code Block |
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<executeActivity>
<command>
<executable>runxb<executable>xbeach.bat<exe</executable>
</command>
<timeOut>99999999</timeOut>
</executeActivity>
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...
Import activities
The last part of the general adapter run is importing the XBeach output. In the case xboutput.nc contains all parameter, output and grid information of the run. This can be visualized in FEWS after defining the needed parameters, location and grid. How to do this can be found here: XBeach FEWS setup
| Code Block |
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| xml |
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| xml |
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| title | model run output import activity |
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<importActivities>
<importPiNetcdfActivity>
<importFile>xboutput.nc</importFile>
<timeSeriesSets>
<timeSeriesSet>
<moduleInstanceId>Run_XBeach</moduleInstanceId>
<valueType>grid</valueType>
<parameterId>H_max</parameterId>
<locationId>Dummy</locationId>
<timeSeriesType>external historical</timeSeriesType>
<timeStep unit="hour"/>
<readWriteMode>add originals</readWriteMode>
</timeSeriesSet>
</timeSeriesSets>
</importPiNetcdfActivity>
</importActivities>
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