The Environmental Flow Node (EFN) is designed to simulate environmental flow requirements according to a set of actions. Environmental flow requirements may generally be classified as either in-stream or floodplain requirements , where the former creates flow conditions that remain within the river channel, and the latter creates flow conditions that spill over bank.
Actions
The EFN provides a means of capturing prescriptive descriptions of water patterns that the environment requires. These definitions of watering patterns are captured as ‘actions’ within the EFN and many combinations of actions can be prescribed. The two types of actions presented in the EFN have been designed to capture the most commonly defined environmental flow requirements specified in environmental flow studies and water regulations. These actions allow you to construct a collective environmental water requirement by using combinations of environmental demand rules. These are:
- Spell based - A spell can be defined as a period of time that the flow has a set of desired characteristics. This type of action can by used to specify a flood or fresh event, usually associated with a recruitment event such as to trigger fish movement, water floodplain vegetation, a flow pattern or a minimum flow, usually applied to maintain minimum habitat requirements; and
- Translucency - specifies the flow requirements in terms of some other time series, usually the release from a dam based on the inflow of the dam.
A combination of these actions can be used to meet specific environmental outcomes. They are configured in the environmental flow node's feature editor..
For each action in the EFN, you can configure several characteristics that can be altered. A common feature across action types is the concept that they can be applied to a specific time of the year. This is termed the ‘season’ of the rule and is defined by a start and end day and month value.
Using the node in Source
Double-click the node to open its feature editor, shown in Figure 1.
Specify maximum account deduction can specify a limit to water debited to an accounting system; if this deduction cap is more than total volume ordered, the total order is debited. This parameter can be specified as a value or a function. By default the volume a node orders (on top of the downstream order)is accounted for. Here, the user can specify a function to limit that volume to a maximum, for example: Min(0, Full Requirement – Minimum Constraint), so that water already in transit is not included in the account deduction.
Right clicking on the top action menu item allows you to add either a Spell Based or Translucency Action. Multiple actions and action types can be added to a single node. The actions will work together to determine a total requirement per timestep.
Right clicking on the action title allows you to rename, delete or enable/disable the action.
Figure 1. Environmental Flow Node
Spell Based
A rule may be configured to order water to follow a distinct pattern of separate flow events. Spell based rules define the characteristics of the flow events, the pattern of their occurance, and conditions under which a rule will become active and order may be made. Flow rules can be made active or inactive dynamically during a modelling run.
Figure 2. Spell Based Action menu
This is to initialise the number of successful spells (for start of run) and is only relevant when the flow node is operating independently from an Environmental Flow Manager. The ‘initial condition’ is based on how Desired Frequency has been defined. The user specifies the number of successful spells in the period (as used for the Desired Frequency) before the start of the run. The ‘initial condition’ impacts ordering only, not antecedent conditions.
If End spell if it will fail is not enabled, tracking of spells can be restricted to being within the spell timeframe. This may result in a successful spell that occurs without the node ordering the spell not being considered successful, as it does not align with the spell timeframe.
The End spell if it will fail option is selected by default. The user must disable the option in case of a minimum flow requirement through the season, which should continue even if has not been successfully met in the season so far.
If enabled, the user can choose to override the default method of evaluating Antecedent Condition. This would allow to user to include more advanced ecological response model. See Antecedent Condition in scientific reference guide for more details.
*The message “Note: This node is managed by the Environmental Flow Manager. It will decide if targets result in orders. ‘Desired frequency’ will still be used to determine the Condition.” will appear in the User Interface if the Action is linked to an Environmental Flow Manager.
Spell Definition
Figure 3. Spell Definition menu
Reference flow can be determined by a single value, a data source, a function or a flow target table. The target flow (full requirement) will be the minimum of either the Target or Reference flow.
This allows the spell to extend more than the minimum duration when possible. The user can either always allow or disallow the spell to extend beyond the minimum duration using a binary TRUE or FALSE, or use a function to evaluate whether the spell can be extended. The function should evaluate to TRUE or FALSE.
A spell is considered a success as soon as it has met the minimum criteria. The spell, however, is not considered complete while it is still running under extension, and the time since last successful spellwill increment accordingly. If a spell extends to the final day of a season, the rate of fall will not occur/be considered.The flow should fall below the end threshold for a spell to be considered finished. End threshold is used in scenarios with multiple spells to enable the flow rate to be dropped for a specified time period after one spell before beginning another spell. The model will not actively try to achieve the end threshold flowrate and the end threshold is not taken into account when measuring success. If the flow does not drop below the end threshold, the spell will end when the season has ended.
The user can specify a number of success criteria. All criteria need to be met for an action to be considered successful. This allows for flexibility around what a success may look like. For example, if it important to achieve the full event volume, but the flow level may vary around the flow target, the target % could be set to a low value, and the volume to 100%.
Figure 4. Spell Based Action Success Criteria Menu
Target
Rise and Fall
Figure 5. Spell Based Action Rise and Fall Menu
Method:
Days, Rate (ML/d) or Percentage to define a spell’s rise and fall. For more details see scientific reference guide
- Days: Number of days over which the Rise and Fall should occur
- Rate: Daily change in flow rate during Rise and Fall
- Percentage: Increase or decrease flow by x percentage for user specified number of days.
Period or rate at which the flow will fall from the Target flow rate to the Fall Target. The rate of fall is only relevant when expected flow (minimum constraint) and downstream order are both less than targeted flows. The fall period will lie within the defined season. There will only be a fall period if a spell is successful, this will be reflected in the Full Requirement.
Targeted flow rate to reduce (fall) flow to. This is used to determine the falling limb of the event based on number of days or rate at which flow should fall. However, if the Percentage method is selected, fall target will be ignored.
Note: The rise and fall criteria are not considered in determining spell success.
This action allows you to define reference relationships where flow would be allowed to pass through a storage or restrictions be placed on extraction in an unregulated system.
Figure 6. Translucency Action Menu
Season: