Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.
Comment: Migrated to Confluence 5.3

Introduction

The operations functions of eWater Source have been designed around the current work practices of river operators from Australian bulk water agencies.

eWater Source allows operators to develop and assess operating scenarios efficiently utilising a modelling platform that can capture both the hydrological aspects of their systems such as storages, wetlands, link routing, groundwater interactions, and management aspects such as resource assessment, water accounting, and ownership.

eWater Source represents the hydrological and management aspects of the system as individual models/components that integrate to provide the overall system behaviour. This modular structure is very powerful as it allows operators to develop system models to the level of complexity required for their system. In the past, modelling tools used by operators have often been either too simple (eg. spreadsheets) or too complex (eg. hydrodynamic models). Information on how the individual models/components in eWater Source work is provided in the relevant sections of this SRG.

eWater Source also provides tools for loading data and advancing models as well as a unique tabular display that allows the river operator to analyse scenario results in both a temporal and spatial sense.

Scale

As a whole, the operations functions of eWater Source operate at the river basin scale and at every model time-step. For further information on spatial and temporal scales, see the SRG sections on the various models/components available in eWater Source.

Principal developer

eWater CRC.

Scientific provenance

Similar types of functionality exist in industry models such as IQQM, REALM and MSM/BigMod and also within spreadsheets used for daily river operations.

Version

Source version 2.16.1.

Dependencies

For information on dependencies, see the SRG sections on the various models/components available in eWater Source.

Forecasting (river operations)

Forecast models are used to build forecast scenarios in eWater Source for inflow nodes, unaccounted differences and water user demands.

Source includes three forecasting techniques commonly used in river operations: (a) monthly average, (b) time series and (c) trend models. Modellers can also build their own forecast models using the expression editor.

Forecast models can only be defined after a simulation is configured and run.

Scale

The forecast models are applied at nodes, representing a site scale. The models are applicable at every time-step.

Principal developer

eWater CRC.

Scientific provenance

Similar types of functionality exist in industry spreadsheet models used for daily river operations.

Version

Source version 3.1.0

Dependencies

There is no dependency for Inflow nodes and Water User demands except where the models reference historical values, eg. 7 day average, in which case it is mandatory to have a warm up period that covers the model’s historical data requirements.

For unaccounted differences, observed flows must be available for the relevant gauge.

Availability/conditions

Automatically included in eWater Source.

Structure and processes

Monthly average model

eWater Source allows modellers to input monthly patterns for inflows, unaccounted differences and water user demands (orders and crop models).

The monthly model is based on making forecasts using the value from the previous time-step and trending to the average for the month expressed in megalitres per day.

A trend rate can be set between 0 and 1 by the modeller. A trend rate of 1 with a daily time-step would see the target value assigned for all days of the month; ie. the forecast flow would be independent of the antecedent flow.

Info
iconfalse
Note: Only values between 0.001 and 0.999 are accepted. If a user wishes to set the forecast flow to an exact rate the expression editor forecast model can be used.

The forecast monthly model formula is:

Equation 1Image Modified

where:

t Time-step

FlowTarget Target flow rate in megalitres per day for the month in which t resides

Rate Proportion of difference between target flow rate and antecedent flow rate changed across the time-step

Time series

eWater Source allows the modeller to input a time series to be used for forecast inflows, unaccounted differences and water user demands (orders).

Trend model

Source allows users to apply forecast trend models for inflows, unaccounted differences and water user demands (orders).

The trend model is based on making forecasts using the value from the previous time-step and trending to a target value expressed in megalitres per day. The trend rate (Rate) must be between 0 and 1 and is set by the modeller.

The trend model formula is :

Image Removed

where:

t Time-step

FlowTarget Target flow rate in megalitres per day for the month in which t resides

Rate Proportion of difference between target flow rate and antecedent flow rate changed across the time-step

the same as the one for the forecast monthly model (Equation 1).

Time of evaluation

Monthly models, time series models and trend models are evaluated at the start of the model time-step.

If an expression is used for a forecast model the modeller can set the time of evaluation.

For more information refer to the Expression Editor User Guide.

Input data

The input data required is reliant on the forecast model’s parameter requirements when expressions are used. If the expression references model parameters other than for the node for which the forecast model applies or a value in a specific historical time period then these must be loaded/available in the project scenario.

Parameters or settings

Table 1 summarises the parameters and settings applicable to forecasting river operations.

Output data

The outputs can be viewed by selecting the time series from the Recording Manager or by displaying on the Tabular Editor.

...