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Comment: Edit through the REST API

A Gauge node either represents a physical recording device that measures river levels at a point in a river

or 

or a logical point in a river model where you

need to be able to

can record and view the modelled flow. Gauge nodes are used in conjunction with rating curves to estimate flows for a particular location. You can use a gauge node for model calibration and verification, by comparing observed and predicted flow.

Feature editor
Figure 1. Gauge node

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The Bureau of Meteorology (BOM) station identifier can be set from the station list visible in

Feature editor

Figure 1.

 Find

Find and select the station name in the list and click OK.

The Use Inbuilt Station checkbox is enabled by default and ensures that an Australian based gauge is used. You can disable this checkbox to use a non-Australian based gauge.If you have a time series for the physical gauge location, you can load it by clicking the file

in 

in Data Sources. This populates the chart on the right hand side with the time series. Table

2 shows the file format. However,

the 

this data is

only

for your own reference only. It plays no part in the model run.

Table 1. Gauge node (data file format) 
RowColumn (comma-separated)
12
1datevalue
Enabling the 

Rating Curves

A rating curve converts a flow into a level, producing an output of level. You would often have recorded gauge level at a gauge rather than flow, thus making it useful for calibration.

Observed flow

This is where you input observed flow by entering a value, supplying a time series or defining a function (Figure 2).

Anchor
UnaccountedDifference
UnaccountedDifference
Unaccounted difference

Enabling the Set Flow checkbox results in the modelled flow at a gauge being overridden by the

gauge flow. This forces the modelled flow to equal

observed flow and

converts a

changes the gauge node

to an Unaccounted Difference node (Feature editor 2

icon (Figure 3).

 This

This is used in operations environments to check for unaccounted differences in water balances on links.

 Refer

Refer to Forecasting for details.

 Feature editor
 Figure 2. Gauge node, Observed flow

Image Modified

A rating curve converts a flow into a level, producing an output of level (Feature editor 3). You would often have recorded gauge level at a gauge rather than flow, thus making it useful for calibration.

  


Feature editor
Figure 3. Gauge node,
Rating curve
 observed data replaces modelled data

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Ownership

– Refer to Feature Editor 62 for more information.  Operations – this

This menu item is available when ownership has been enabled (using Edit» Ownership), and allows you to configure ownership for the gauge node. Refer to Ownership for more information. 

Forecast unaccounted difference

This is similar to the recession forecast model in the inflow node. Refer

to Forecating inflows.   Constituents –

to Forecasting inflows. This option is only available when River Operator Mode.

Anchor
Constituents
Constituents
Constituents

This behaves in a similar manner as

Gauge

observed flow.

Refer to Gauge node. Ensure that constituents have been defined prior to configuring them (using Edit » Constituents). 

Before configuring constituents at the gauge node, ensure that constituents are enabled and defined (using Edit » Constituents), see Defining constituents for more information. 

For each constituent, you can specify its observed concentration by entering a value, supplying a time series or defining a function (Figure 4). You can compare any differences between the observed and modelled concentrations of constituents during a model run by recording Constituents » Constituent Name » Downstream Flow Concentration and Constituents » Constituent Name » Gauged Concentration.

Enabling the Set to Gauged checkbox (Figure 4) results in the observed constituent concentration overriding the modelled concentration (Figure 4). You can also override modelled flow with the observed flow by enabling Set Flow on the Observed Flow menu (see Unaccounted difference). These two settings are independent of each other. If you override the modelled constituent concentration and/or the modelled flow with observed data, there will be a change in constituent mass and mass balance. Changes in mass, concentration and mass balance can be recorded by navigating to Constituents » Constituent Name in the Parameters Pane and selecting the Unaccounted MassUnaccounted Concentration and Mass Balance parameters.

Figure 4. Gauge node, constituents

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