Inlet q (Water Overlay): Difference between revisions

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==Notes==
==Notes==
* Each calculation step is characterized by an amount of time that elapses. Based on the set flow rate, it is then calculated how much water is added in that time step.
* A value of 0 means the potential amount of water flow is unlimited per timestep, and that water can flow both in and out based on the configured [[Lower threshold (Water Overlay)|lower]] and [[Upper threshold (Water Overlay)|upper threshold]]s, if they are configured.
* A value of 0 means the potential amount of water flow is unlimited per timestep, and that water can flow both in and out based on the configured [[Lower threshold (Water Overlay)|lower]] and [[Upper threshold (Water Overlay)|upper threshold]]s, if they are configured.
* Each calculation step is characterized by an amount of time that elapses. Based on the set flow rate, it is then calculated how much water is added in that time step.
* It is possible to vary the INLET_Q over time, by providing a file with times and flow rates. The resulting data is stored in INLET_Q as an [[attribute array]].
* It is possible to vary the INLET_Q over time, by providing a file with times and flow rates. The resulting data is stored in INLET_Q as an [[attribute array]].
* When using a dynamic INLET_Q, the adjustments in flow rate are immediate when the corresponding simulation time is reached.
* When using a dynamic INLET_Q, the adjustments in flow rate are immediate when the corresponding simulation time is reached.

Revision as of 09:59, 19 June 2019

Template:Overlay attribute

Notes

  • Each calculation step is characterized by an amount of time that elapses. Based on the set flow rate, it is then calculated how much water is added in that time step.
  • A value of 0 means the potential amount of water flow is unlimited per timestep, and that water can flow both in and out based on the configured lower and upper thresholds, if they are configured.
  • It is possible to vary the INLET_Q over time, by providing a file with times and flow rates. The resulting data is stored in INLET_Q as an attribute array.
  • When using a dynamic INLET_Q, the adjustments in flow rate are immediate when the corresponding simulation time is reached.