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Nodes represent a physical entity or process within the system that occurs on a relatively localised basis. A water use node represents urban water demand and water consumption behaviour. The Urban Developer Plugin offers two methods for simulating water use behaviour:
- Average daily model (see Average Water Use node)
- Behavioural model (the Behavioural Water Use node)
The following table lists the node models currently available within the Urban Developer Plugin. Each node is represented by a specific icon. The table outlines the function of each node model; other sections of this User Guide contain a more comprehensive description of each node model.
Icon | Node Name |
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and to release it in a controlled manner. | ||
Average Water use | A water use node |
representing average urban water demand and water consumption behaviour. | ||
Behavioural Water use | A water use node represents urban water demand and water consumption behaviour |
Node Connection Rules
The node connection rules are based on the link type allowed between each node output and input. When you draw links between outputs and inputs, Urban Developer prevents you from connecting incompatible inputs and outputs together.
In the node model section (page 91), each node model input and output has a link type listed. The rule is: you can only connect inputs and outputs of the same link type: demand to demand, stormwater to stormwater, etc.
The table below summarises these connection rules in one place.
To use this table, look up the originating node in the left-most column, then the output you want to connect (the destination node) in columns 2..29.
Example: from a roof node, you can connect the runoff output to a buffer, but not the runoff to tank output.
This table shows the allowed connections between a source node, and a destination node. The Destination node column specifies which output of the source node can connect to the nodes below it. For example, the Impervious Area node's Runoff output can connect to another Impervious Area node's Inflow input, or a Junction node's Inflow input.
If a node is not listed in the Destination Node column, the connection is not permitted.
Node Output
Destination node - destination input type
Runoff to tank
Junction - Inflow
Receiving Node - Inflow
Subnetwork - Piped inflow
Tank - Inflow
Runoff
Impervious Area - Inflow
Junction - Inflow
Pervious Area - Inflow
Receiving Node - Inflow
Subnetwork - Surface inflow, Piped inflow
Tank - Inflow
Spill
Impervious Area - Inflow
Junction - Inflow
Pervious Area - Inflow
Receiving Node - Inflow
Subnetwork - Surface inflow
Detention Outflow
Impervious Area - Inflow
Junction - Surface inflow, piped inflow
Pervious Area - Inflow
Receiving Node - Surface inflow, piped inflow
Subnetwork - Surface inflow, piped inflow
Tank - Piped inflow
Supply Out
Alternative Supply - Inflow
Mains Water Supply - Inflow
Subnetwork - Mains supply, Tank supply, Alternative supply 1 & 2
Tank - Inflow
Wastewater Connection - Inflow
Water Use - Mains supply, Tank supply, Alternative supply 1 & 2
Greywater
Subnetwork - Piped inflow
Tank - Inflow
Wastewater Connection - Inflow
Blackwater
Subnetwork - Piped inflow
Tank - Inflow
Wastewater Connection - Inflow
Irrigation/Other
Pervious Area - Inflow
Subnetwork - Surface inflow, piped inflow
Tank - Inflow
Wastewater Connection - Inflow
, based on a stochastic end-use demand simulation |