Contents
Introduction
The conceptual solution for the interface between HEC-RAS and FEWS has been illustrated in Figure 1. Two modes of working are identified that each support a basic use case. The modes of working are:
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Note that only binary and configuration files relevant to the HEC-RAS adapter are included, in a real configuration a lot more files can be involved used by another modules of the FEWS system.
No Format |
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+---bin
| <FEWS binaries>
\---nerfc_sa
|
+---Config
| +---ColdStateFiles
| | HECRAS_CONNECTICTUT_UpdateStates Default.zip....cold state files
| |
| +---IdMapFiles
| | IdExportHECRAS.xml.......................... custom mappings for the HEC-RAS variables and locations
| |
| +---ModuleConfigFiles
| | HECRAS_CONNECTICTUT_Forecast.xml............ main configuration file of the adapter
| |
| +---ModuleDataSetFiles
| | HECRAS_CONNECTICTUT_UpdateStates.xml.........zipped hecras files, transported to Models directory
| |
| \---ModuleParFiles
| HECRAS_CONNECTICUT_Parameters............. configuration file which allows to override some model and structure parameters
|
\---Models
\---hec/hecras
+---bin........................................ directory which contains all HEC-RAS executables for Windows and Linux platforms
| DSSWriter.exe.......................... generates binary file containing detailed model output
| dss_writer
| GeomPreprocessor.exe................... converts geometry files from GUI ASCII format to binary
| geo_pre
| Steady.exe............................. performs steady flow simulations
| steady
| Unsteady.exe........................... performs unsteady flow simulations
| unsteady
| DFORMD.DLL
| DFORMDD.DLL
| MSVCRTD.DLL
| libmtsk.so.1
| libwldelft_native.so
| module-adapter-hec-ras.jar............. pre- and pos- adapter, Coverts HEC-RAS data files to/from FEWS-PI format
| nwsras.jar............................. main library used by the adapter, reads and writes HEC-RAS data files
| heclib6-pc.dll
| javaHeclib.dll
| castor-0.9.5p.jar...................... the rest of the files below are FEWS dependencies used by adapter
| commons-cli-1.1.jar
| Delft_FEWS_castor.jar
| Delft_FEWS_schemas.jar
| Delft_PI.jar
| Delft_PI_castor.jar
| Delft_Util.jar
| jaxp-api-1_3.jar
| jaxp-dom-1-3.jar
| jaxp-sax-1_3.jar
| jaxp-xalan-1_3.jar
| jaxp-xercesImpl-1_3.jar
| log4j-1.2.14.jar
| serializer.jar
| TimeSeriesImport.jar
| xalan.jar
| xerces-c_2_8.dll
| xercesImpl.jar
| xml-apis.jar
|
\---connecticut
| run_info.xml.......................... a file generated by FEWS containing paths, run options
|
+---input.................................. input directory of the adapter, input FEWS-PI time series files
| inputs.xml
|
+---log.................................... log messages written by the hec-ras adapter
| adapter.xml
|
+---output................................. contains HEC-RAS output converted from the binary and dss output files
| output.xml
|
\---work................................... working directory of the adapters
ctfld2ras.b01
ctfld2ras.b02
ctfld2ras.b03
ctfld2ras.c02
ctfld2ras.f04
ctfld2ras.g02
ctfld2ras.p01
ctfld2ras.p02
ctfld2ras.p05
ctfld2ras.prj
ctfld2ras.r01
ctfld2ras.r02
ctfld2ras.r03
ctfld2ras.r05
ctfld2ras.u01
ctfld2ras.u02
ctfld2ras.x02
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Note |
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List of output variables is defined under outputTimeSeriesParametersFilter item uses Regular Expressions. In most cases it is a list of variable names delimited with '|' character and for those variables where name can occur in another variable names (e.g. FLOW and FLOW AT GATE) it is necessary to use ^ as a prefix and $ $$ as a suffix of the variable. For example: Code Block |
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<string key="outputTimeSeriesParametersFilter" value="^STAGE$^STAGE$$|^FLOW$^FLOW$$|Hydr Radius R|Hydr Radius L|^Flow Area$Area$$" />
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Example configuration of the HEC-RAS adapter:
Code Block |
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|
<?xml version="1.0" encoding="UTF-8"?>
<generalAdapterRun xmlns="http://www.wldelft.nl/fews" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://www.wldelft.nl/fews http://fews.wldelft.nl/schemas/version1.0/generalAdapterRun.xsd">
<general>
<description>hecras Model for Kennebec River</description>
<rootDir>$HECRASMODELDIR$/kennebec</rootDir>
<workDir>%ROOT_DIR%/work</workDir>
<exportDir>%ROOT_DIR%/input</exportDir>
<exportDataSetDir>%ROOT_DIR%/work</exportDataSetDir>
<exportIdMap>IdExportHECRAS</exportIdMap>
<exportUnitConversionsId>ExportHECRAS</exportUnitConversionsId>
<importDir>%ROOT_DIR%output</importDir>
<importIdMap>IdImportHECRAS</importIdMap>
<importUnitConversionsId>ImportHECRAS</importUnitConversionsId>
<dumpFileDir>$GA_DUMPFILEDIR$</dumpFileDir>
<dumpDir>%ROOT_DIR%</dumpDir>
<diagnosticFile>%ROOT_DIR%/log/preadapter.xml</diagnosticFile>
</general>
<activities>
<startUpActivities>
<purgeActivity>
<filter>%ROOT_DIR%/log/*.*</filter>
</purgeActivity>
<purgeActivity>
<filter>%ROOT_DIR%/input/*.*</filter>
</purgeActivity>
<purgeActivity>
<filter>%ROOT_DIR%/output/*.*</filter>
</purgeActivity>
<purgeActivity>
<filter>%ROOT_DIR%/work/*.*</filter>
</purgeActivity>
</startUpActivities>
<exportActivities>
<exportStateActivity>
<moduleInstanceId>HECRAS_KENNEBEC_UpdateStates</moduleInstanceId>
<stateExportDir>%ROOT_DIR%/work</stateExportDir>
<stateConfigFile>%ROOT_DIR%/work/state.xml</stateConfigFile>
<stateLocations type="file">
<stateLocation>
<readLocation>Augusta.p02.rst</readLocation>
<writeLocation>Augusta.p02.rst</writeLocation>
</stateLocation>
</stateLocations>
<stateSelection>
<warmState>
<stateSearchPeriod unit="day" start="-10" end="-1"/>
</warmState>
</stateSelection>
</exportStateActivity>
<exportTimeSeriesActivity>
<exportFile>%ROOT_DIR%/input/input.xml</exportFile>
<timeSeriesSets>
<timeSeriesSet>
<moduleInstanceId>HECRAS_KENNEBEC_Preprocessing_UpdateStates</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>QINE</parameterId>
<locationId>SIDM1ME</locationId>
<timeSeriesType>simulated historical</timeSeriesType>
<timeStep unit="hour" multiplier="1"/>
<relativeViewPeriod unit="hour" end="0"/>
<readWriteMode>read only</readWriteMode>
</timeSeriesSet>
<timeSeriesSet>
<moduleInstanceId>HECRAS_KENNEBEC_Preprocessing_UpdateStates</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>STID</parameterId>
<locationId>CASM1ME</locationId>
<timeSeriesType>simulated historical</timeSeriesType>
<timeStep unit="hour" multiplier="1"/>
<relativeViewPeriod unit="hour" end="0"/>
<readWriteMode>read only</readWriteMode>
</timeSeriesSet>
</timeSeriesSets>
</exportTimeSeriesActivity>
<exportDataSetActivity>
<moduleInstanceId>HECRAS_KENNEBEC_UpdateStates</moduleInstanceId>
</exportDataSetActivity>
<exportParameterActivity>
<fileName>params.xml</fileName>
<moduleInstanceId>HECRAS_KENNEBEC_UpdateStates</moduleInstanceId>
</exportParameterActivity>
<exportRunFileActivity>
<exportFile>%ROOT_DIR%/run_info.xml</exportFile>
<properties>
<string key="hecRasProjectFile" value="%ROOT_DIR%/work/Augusta.prj"/>
<string key="hecRasBinDirectory" value="$HECRASBINDIR$"/>
<string key="outputTimeSeriesParametersFilter" value="^STAGE$|^FLOW$"/>
<string key="outputLongtitudionalProfileParametersFilter" value="^STAGE$^STAGE$$|Hydr Radius L"/>
<string key="logLevel" value="DEBUG"/>
<string key="skipBinaryOutput" value="false"/>
<string key="hecRasEnvironment" value="LD_LIBRARY_PATH=$HECRASBINDIR$:$LD_LIBRARY_PATH"/>
</properties>
</exportRunFileActivity>
</exportActivities>
<executeActivities>
<executeActivity>
<command>
<className>nl.wldelft.fews.adapter.hec.HecRasAdapter</className>
<binDir>$HECRASBINDIR$</binDir>
</command>
<arguments>
<argument>%ROOT_DIR%/run_info.xml</argument>
</arguments>
<timeOut>1500000</timeOut>
</executeActivity>
</executeActivities>
<importActivities>
<importStateActivity>
<stateConfigFile>%ROOT_DIR%/work/state.xml</stateConfigFile>
<synchLevel>20</synchLevel>
</importStateActivity>
<importTimeSeriesActivity>
<importFile>%ROOT_DIR%/output/output.xml</importFile>
<timeSeriesSets>
<timeSeriesSet>
<moduleInstanceId>HECRAS_KENNEBEC_UpdateStates</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>SSTG</parameterId>
<locationId>AUGM1ME</locationId>
<timeSeriesType>simulated historical</timeSeriesType>
<timeStep unit="hour" multiplier="1"/>
<readWriteMode>add originals</readWriteMode>
</timeSeriesSet>
<timeSeriesSet>
<moduleInstanceId>HECRAS_KENNEBEC_UpdateStates</moduleInstanceId>
<valueType>scalar</valueType>
<parameterId>SQIN</parameterId>
<locationId>AUGM1ME</locationId>
<timeSeriesType>simulated historical</timeSeriesType>
<timeStep unit="hour" multiplier="1"/>
<readWriteMode>add originals</readWriteMode>
</timeSeriesSet>
</timeSeriesSets>
</importTimeSeriesActivity>
</importActivities>
</activities>
</generalAdapterRun>
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Note |
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Name of the structure defined in the HEC-RAS must exactly match group id and location of the structure (station, river, chainage) must be the same as locationId. |
Code Block |
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<parameters xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://www.wldelft.nl/fews/PI" xsi:schemaLocation="http://www.wldelft.nl/fews/PI http://fews.wldelft.nl/schemas/version1.0/pi-schemas/pi_modelparameters.xsd" version="1.5">
<modifierType>HECRAS</modifierType>
<group id="default" name="hec-ras run parameters">
<parameter id="ComputationInterval">
<description>Computation interval in minutes. Does not change interval of output data.</description>
<intValue>5</intValue>
</parameter>
</group>
<!-- Gate name and locationId should be equal to what is defined in the HEC-RAS gui -->
<group id="Gate #1" name="hec-ras gate parameters">
<locationId>CT River R1/18100</locationId>
<!--
Gate parameters depend on the mode selected in the RAS configuration files (gui),
Posssible modes which can te set in the gui are:
based on upstream WS (default)
based on specified reference
based on difference in stage
-->
<!-- parameters valid all modes -->
<parameter id="RateOpen">
<dblValue>0.05</dblValue>
</parameter>
<parameter id="RateClose">
<dblValue>0.05</dblValue>
</parameter>
<parameter id="MaxOpen">
<dblValue>20.0</dblValue>
</parameter>
<parameter id="MinOpen">
<dblValue>0.0</dblValue>
</parameter>
<parameter id="InitOpen">
<dblValue>3.0</dblValue>
</parameter>
<!-- parameters specific for "based on upstream WS" -->
<parameter id="ZOpen">
<description></description>
<dblValue>4.0</dblValue>
</parameter>
<parameter id="ZClose">
<description></description>
<dblValue>3.0</dblValue>
</parameter>
<!-- parameters specific for "based on specified reference" -->
<!--
<parameter id="ReferenceWSType">
<description>Valid values: Reach, RiverStation, StorageArea</description>
<stringValue>Reach</stringValue>
</parameter>
<parameter id="ReferenceWS">
<description>Depending on the ReferenceWSType parameter</description>
<stringValue>R1</stringValue>
</parameter>
<parameter id="referenceWSOpen">
<description>Reference elevation at which gate begins to open</description>
<dblValue>4.0</dblValue>
</parameter>
<parameter id="referenceWSClose">
<description>Reference elevation at which gate begins to close</description>
<dblValue>3.0</dblValue>
</parameter>
-->
<!-- parameters specific for "based on difference in stage" -->
<!--
<parameter id="stageDiffUSType">
<description>Upstream Reach, RiverStation or StorageArea location for stage difference computation</description>
<stringValue>Reach</stringValue>
</parameter>
<parameter id="stageDiffUS">
<description>Depends on the stageDiffUSType parameter</description>
<stringValue>Reach</stringValue>
</parameter>
<parameter id="stageDiffDSType">
<description>Downstream River, Reach, RiverStation or StorageArea location for stage difference computation</description>
<stringValue>Reach</stringValue>
</parameter>
<parameter id="stageDiffDS">
<description>Depends on the stageDiffDSType parameter</description>
<stringValue>R1</stringValue>
</parameter>
<parameter id="stageDiffOpen">
<description>Stage difference at which gate begins to open</description>
<dblValue>0.1</dblValue>
</parameter>
<parameter id="stageDiffClose">
<description>Stage difference at which gate begins to close</description>
<dblValue>0.1</dblValue>
</parameter>
-->
</group>
<group id="Levee Breach" name="hec-ras levee breach parameters">
<locationId>CT River R1/248658</locationId>
<parameter id="IsActive">
<description>true when breach is activated, otherwise model skips it during computations</description>
<boolValue>false</boolValue>
</parameter>
<parameter id="IsWSStart">
<description>true if trigger for failure is WS elevation</description>
<boolValue>true</boolValue>
</parameter>
<parameter id="ThresholdWS">
<description>water surface elevation for breaching</description>
<dblValue>3.4028E38</dblValue>
</parameter>
<parameter id="ThresholdDuration">
<description>threshold time (hours) for breaching</description>
<dblValue>3.4028E38</dblValue>
</parameter>
<parameter id="StartDate">
<description>Start date for breaching (e.g. 01MAR2001)</description>
<stringValue></stringValue>
</parameter>
<parameter id="StartTime">
<description>Start time for breaching (e.g. 1630)</description>
<stringValue></stringValue>
</parameter>
<parameter id="CenterStation">
<description>Center of breach (XS station / location)</description>
<dblValue>8800.0</dblValue>
</parameter>
<parameter id="BottomWidth">
<description>Final bottom width</description>
<dblValue>500.0</dblValue>
</parameter>
<parameter id="BottomElevation">
<description>Final bottom elevation</description>
<dblValue>-10.0</dblValue>
</parameter>
<parameter id="LeftSideSlope">
<description>Left side slope</description>
<dblValue>2.0</dblValue>
</parameter>
<parameter id="RightSideSlope">
<description>Right side slope</description>
<dblValue>2.0</dblValue>
</parameter>
<parameter id="BreachTime">
<description>Full formation time (hours)</description>
<dblValue>1.0</dblValue>
</parameter>
<parameter id="WeirCoef">
<description>Breach weir coefficient</description>
<dblValue>2.6</dblValue>
</parameter>
<!-- parameter below are used only when IsPipe = true -->
<parameter id="IsPipe">
<description>true if piping failure, false if overtopping</description>
<boolValue>true</boolValue>
</parameter>
<parameter id="PipingCoefficient">
<description>Piping coefficient (default is .8)</description>
<dblValue>0.8</dblValue>
</parameter>
<parameter id="InitialPipingElevation">
<description>Initial piping elevation</description>
<dblValue>-0.5</dblValue>
</parameter>
</group>
</parameters>
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The HEC-RAS adapter is configured properly and forecast is performed from the Delft-FEWS system - a list of input and output variables will be written into the standard log file of the system. The location and variables are based on the active <region>.b01 file of the HEC-RAS model configured in the GUI of HEC-RAS. Pre-adapter of the HEC-RAS will provide list of all possible input variables and locations in the following part of the log file:
Code Block |
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...
156 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Found input at locations:
156 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - CT River, R1, 334752.0, Flow Hydrograph
156 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - CT River, R1, 0.00, Stage Hydrograph
...
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Locations and variables listed after the line Found input at locations: can be configured in the Delft-FEWS as a part of adapter input, e.g. input.xml in this case may contain something like the lines below:
Code Block |
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language | xml |
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title | input.xml |
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|
<TimeSeries
xsi:schemaLocation="http://www.wldelft.nl/fews/PI http://fews.wldelft.nl/schemas/version1.0/pi-schemas/pi_timeseries.xsd"
version="1.2" xmlns="http://www.wldelft.nl/fews/PI" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
<timeZone>0.0</timeZone>
<series>
<header>
<type>instantaneous</type>
<locationId>CT RIVER R1/334752.0</locationId>
<parameterId>Flow Hydrograph</parameterId>
<timeStep unit="second" multiplier="3600"/>
<startDate date="2008-11-06" time="12:00:00"/>
<endDate date="2008-11-08" time="12:00:00"/>
<missVal>-999.0</missVal>
<stationName>Connicut River at Thompsonville</stationName>
<units>cms</units>
</header>
<event date="2008-11-06" time="12:00:00" value="14.98" flag="0"/>
<event date="2008-11-06" time="13:00:00" value="14.705" flag="0"/>
<event date="2008-11-06" time="14:00:00" value="14.43" flag="0"/>
<event date="2008-11-06" time="15:00:00" value="14.155" flag="0"/>
<event date="2008-11-06" time="16:00:00" value="13.88" flag="0"/>
<event date="2008-11-06" time="17:00:00" value="13.605" flag="0"/>
...
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...
In the same way list of all output variables and locations can be found in the post-adapter log output, for example:
Code Block |
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...
84843 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Profile, Profile number.,
84843 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - W.S. Elev, Calculated water surface from energy equation., (ft)
84843 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - E.G. Elev, Energy gradeline for given WSEL., (ft)
84843 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Max Chl Dpth, Maximum main channel depth., (ft)
84843 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Min Ch El, Minimum Channel Elevation., (ft)
84843 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Q Left, Flow in left overbank., (cfs)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Q Channel, Flow in main channel., (cfs)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Q Right, Flow in right overbank., (cfs)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Q Total, Total flow in cross section., (cfs)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Flow Area, Total area of cross section active flow., (sq ft)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Flow Area L, Area of left overbank active flow., (sq ft)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Flow Area Ch, Area of main channel active flow., (sq ft)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - Flow Area R, Area of right overbank active flow., (sq ft)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - W.P. Total, Wetted perimeter of total cross section., (ft)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - W.P. Left, Wetted perimeter of left overbank., (ft)
84859 [main] INFO nl.wldelft.fews.adapter.hec.HecRasDataAccessFacadeImpl - W.P. Channel, Wetted perimeter of main channel., (ft)
...
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...
Code Block |
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| xml |
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| xml |
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title | Example of the FEWS-PI containing binary output of the HEC-RAS model |
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|
<TimeSeries
xsi:schemaLocation="http://www.wldelft.nl/fews/PI http://fews.wldelft.nl/schemas/version1.0/pi-schemas/pi_timeseries.xsd"
version="1.2" xmlns="http://www.wldelft.nl/fews/PI" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
<timeZone>0.0</timeZone>
<series>
<header>
<type>instantaneous</type>
<locationId>CT River R1/334752.0</locationId>
<parameterId>W.S. Elev</parameterId>
<timeStep unit="second" multiplier="3600"/>
<startDate date="2008-11-06" time="00:00:00"/>
<endDate date="2008-11-08" time="00:00:00"/>
<missVal>NaN</missVal>
<units>[?]</units>
</header>
<event date="2008-11-06" time="00:00:00" value="32.06013" flag="0"/>
<event date="2008-11-06" time="01:00:00" value="32.06013" flag="0"/>
<event date="2008-11-06" time="02:00:00" value="32.034" flag="0"/>
<event date="2008-11-06" time="03:00:00" value="32.03394" flag="0"/>
...
<event date="2008-11-07" time="23:00:00" value="32.03618" flag="0"/>
<event date="2008-11-08" time="00:00:00" value="32.03598" flag="0"/>
</series>
<series>
<header>
<type>instantaneous</type>
<locationId>CT River R1/334752.0</locationId>
<parameterId>E.G. Elev</parameterId>
<timeStep unit="second" multiplier="3600"/>
<startDate date="2008-11-06" time="00:00:00"/>
<endDate date="2008-11-08" time="00:00:00"/>
<missVal>NaN</missVal>
<units>[?]</units>
</header>
<event date="2008-11-06" time="00:00:00" value="32.06734" flag="0"/>
<event date="2008-11-06" time="01:00:00" value="32.06734" flag="0"/>
<event date="2008-11-06" time="02:00:00" value="32.056885" flag="0"/>
...
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...
Code Block |
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| xml |
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| xml |
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title | Example of the FEWS-PI containing DSS output of the HEC-RAS model |
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<TimeSeries
xsi:schemaLocation="http://www.wldelft.nl/fews/PI http://fews.wldelft.nl/schemas/version1.0/pi-schemas/pi_timeseries.xsd"
version="1.2" xmlns="http://www.wldelft.nl/fews/PI" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
<timeZone>0.0</timeZone>
<series>
<header>
<type>instantaneous</type>
<locationId>CT RIVER R1/0.00</locationId>
<parameterId>FLOW</parameterId>
<timeStep unit="second" multiplier="3600"/>
<startDate date="2008-11-06" time="00:00:00"/>
<endDate date="2008-11-08" time="00:00:00"/>
<missVal>NaN</missVal>
<units>CFS</units>
</header>
<event date="2008-11-06" time="00:00:00" value="24.38823" flag="0"/>
<event date="2008-11-06" time="01:00:00" value="-5.8442316" flag="0"/>
<event date="2008-11-06" time="02:00:00" value="68.705124" flag="0"/>
<event date="2008-11-06" time="03:00:00" value="391.09784" flag="0"/>
...
<event date="2008-11-07" time="23:00:00" value="438.6425" flag="0"/>
<event date="2008-11-08" time="00:00:00" value="-5259.6562" flag="0"/>
</series>
<series>
<header>
<type>instantaneous</type>
<locationId>CT RIVER R1/0.00</locationId>
<parameterId>STAGE</parameterId>
<timeStep unit="second" multiplier="3600"/>
<startDate date="2008-11-06" time="00:00:00"/>
<endDate date="2008-11-08" time="00:00:00"/>
<missVal>NaN</missVal>
<units>FEET</units>
</header>
<event date="2008-11-06" time="00:00:00" value="5.0" flag="0"/>
<event date="2008-11-06" time="01:00:00" value="5.0" flag="0"/>
<event date="2008-11-06" time="02:00:00" value="5.0" flag="0"/>
<event date="2008-11-06" time="03:00:00" value="5.0" flag="0"/>
...
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...