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{{Navigation|vorher=Transportstrecke|hoch=Beschreibung der Systemelemente|nachher=Verzweigung}}
{{Navigation|vorher=Transportstrecke|hoch=Beschreibung der Systemelemente|nachher=Verzweigung}}
[[Special:MyLanguage/Datei:Systemelement004.png|50px|none|Symbol Systemelement Verbraucher]]
[[Datei:Systemelement004.png|50px|none]]


Consumers are both water absorbers and dischargers. They can be interpreted as municipal or industrial waterworks with a subsequent supply network, which require drinking or process water and release it back into a waterbody via the sewerage system and sewage treatment plant with a time delay. The time delay indicates how long the water quantity remains in the consumer on average until it appears again as clarified waste water in the body of water. The consumer replaces a detailed simulation of an urban area with sewer system. However, if a differentiated consideration of urban areas is required, this can be done with the help of urban catchment areas, pipelines and reservoirs as retention structures of the sewer system.
Consumers are both water sinks and sources. They can be used to model municipal or industrial waterworks with a subsequent supply network, which require drinking or process water and release it back into a waterbody via the sewer system and sewage treatment plant with a time delay. The time delay indicates how long on average the water remains in the consumer until it is returned into the river as treated waste water. The consumer replaces a detailed simulation of an urban area with a sewer system. However, if urban areas need to be considered in more detail, this can be done using urban sub-basins, pipelines and reservoirs acting as retention structures of the sewer system.




==Demand behaviour==
==Demand Behavior==


The demand behavior provides information about the desired water quantities. The definition of these water quantities is possible via two options.
The demand behavior provides information about the desired water quantities. The definition of these water quantities is possible via two options:
:* as a constant hydrograph, which repeats daily, monthly and yearly
* as a constant pattern, which repeats daily, monthly and/or annually
:* as measured or generated time series from the time series management
* as an observed or generated time series from the Time series manager




==Zuschussverhalten==
==External Contribution==


A consumer can receive water from different water management systems or catchment areas to meet his needs. If a consumer now owns a water supply source that is located outside the system under consideration, there is a discharge or subsidy into the system. The determination of the subsidy behavior is done analogous to the demand behavior by two options.
A consumer can receive water from different water resources systems or catchments in order to meet his demands. If a consumer has a water supply source that is located outside of the modelled system, this is considered an external contribution. As with the demand behavior, external contributions can be defined using two options:
:* as a constant hydrograph, which is repeated daily, monthly and yearly
* as a constant pattern, which repeats daily, monthly and/or annually,
:* as measured or generated time series from the time series management
* as an observed or generated time series from the Time series manager




==Wiedereinleitung in das System==
==Return Flow==


Genau wie ein Verbraucher Zuschuss aus Fremdgebieten beziehen kann, so kann er auch Wasser an Gebiete außerhalb des betrachteten Systems abgeben. Eine solche Situation liegt dann vor, wenn ein Wasserwerk mehrere Versorgungsgebiete bedienen muss, wobei mindestens eines nicht Bestandteil des zu simulierenden Systems ist. Das Entlastungsverhalten einer Kanalisation in ein Fremdgebiet kann über diese Methode vereinfacht abgebildet werden. Dieses Verhalten entspricht der Simulation von Überleitungen in andere Einzugsgebiete.
Just as a consumer can receive external contributions, it can also deliver water to areas outside of the modelled system. Such a situation exists e.g. if a waterworks facility has to serve several supply areas, of which at least one is not part of the modeled system. Or if a sewer system discharges water into a body of water outside of the modeled system. More generally, it can be used to model the transfer of water from a modeled catchment to a catchment outside of the system.
In solch einem Fall verhält sich ein Verbraucher wie ein Aufteilungsbauwerk, wobei drei verschiedene Konzepte denkbar sind (genaue Erläuterung der Optionen finden sich beim Element [[Special:MyLanguage/Verzweigung|Verzweigung]]).
In such a case, a consumer behaves like a diversion, where three different concepts are conceivable (for a detailed explanation of the options, see the [[Special:MyLanguage/Verzweigung|diversion]] element).
:* Schwellwertkonzept
* Threshold value concept
::Überschreitet das vom Verbraucher zum System zurückfließende Wasser einen bestimmten Grenzwert, wird der über dem Grenzwert liegende Anteil abgeschlagen bzw. nicht mehr in das System zurückgeleitet.  
: If the return flow from the consumer exceeds a certain threshold value, the portion of flow above the threshold value is diverted and not returned to the system.  
:* Prozentuale Aufteilung
* Percentage distribution
::Ein bestimmter Prozentsatz des vom Verbraucher zum System zurückfließende Wassers wird als Abschlag in andere Einzugsgebiete behandelt und nicht mehr in das System zurückgeführt.  
: A certain percentage of the water flowing back to the system from the consumer is diverted to an external area and not returned to the system.  
:* Aufteilung gemäß einer Kennlinie
* Diversion according to a rating curve
::Die Höhe des Abschlags in andere Gebiete erfolgt in Abhängigkeit der aktuellen vom Verbraucher zurückfließenden Menge.
: The amount of flow diverted to external areas depends on the current return flow of the consumer.




Die Volumenströme eines Verbrauchers sind in der folgenden Abbildung veranschaulicht.
The volume flows of a consumer are illustrated in the following figure.


[[Special:MyLanguage/Datei:Volumenströme_eines_Verbrauchers.png|frame|none|Volumenströme eines Verbrauchers]]
[[Datei:Volumenströme_eines_Verbrauchers_EN.png|frame|none|Volume flows of a consumer]]

Aktuelle Version vom 25. Februar 2021, 12:33 Uhr

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Systemelement004.png

Consumers are both water sinks and sources. They can be used to model municipal or industrial waterworks with a subsequent supply network, which require drinking or process water and release it back into a waterbody via the sewer system and sewage treatment plant with a time delay. The time delay indicates how long on average the water remains in the consumer until it is returned into the river as treated waste water. The consumer replaces a detailed simulation of an urban area with a sewer system. However, if urban areas need to be considered in more detail, this can be done using urban sub-basins, pipelines and reservoirs acting as retention structures of the sewer system.


Demand Behavior

The demand behavior provides information about the desired water quantities. The definition of these water quantities is possible via two options:

  • as a constant pattern, which repeats daily, monthly and/or annually
  • as an observed or generated time series from the Time series manager


External Contribution

A consumer can receive water from different water resources systems or catchments in order to meet his demands. If a consumer has a water supply source that is located outside of the modelled system, this is considered an external contribution. As with the demand behavior, external contributions can be defined using two options:

  • as a constant pattern, which repeats daily, monthly and/or annually,
  • as an observed or generated time series from the Time series manager


Return Flow

Just as a consumer can receive external contributions, it can also deliver water to areas outside of the modelled system. Such a situation exists e.g. if a waterworks facility has to serve several supply areas, of which at least one is not part of the modeled system. Or if a sewer system discharges water into a body of water outside of the modeled system. More generally, it can be used to model the transfer of water from a modeled catchment to a catchment outside of the system. In such a case, a consumer behaves like a diversion, where three different concepts are conceivable (for a detailed explanation of the options, see the diversion element).

  • Threshold value concept
If the return flow from the consumer exceeds a certain threshold value, the portion of flow above the threshold value is diverted and not returned to the system.
  • Percentage distribution
A certain percentage of the water flowing back to the system from the consumer is diverted to an external area and not returned to the system.
  • Diversion according to a rating curve
The amount of flow diverted to external areas depends on the current return flow of the consumer.


The volume flows of a consumer are illustrated in the following figure.

Volume flows of a consumer