Load definition/Model input
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Pollution affects a water management system in the form of precipitation, temperature, evaporation, inflow, substance input and withdrawals.
System elements that bring about a water input into the system are in particular point source and catchment area. Consumer und reservoir can also bring additional flow into the system: Consumers via the input of subsidies, reservoirs via an assigned precipitation, which, scaled with the current reservoir surface, also brings water input into the system (especially relevant for dams with large water surfaces).
Substance entries into the system can only be made using the point source element.
An entry/loss of thermal energy as such is currently not possible in the surface. However, the transport reach can already be used at the file level for heat entry/loss. A water temperature at the outlet of the transport element can be defined and the heat exchange between the water surface and the air can be calculated. For more details see: Temperature Modelling. In the surface, temperature data only play a role in the evaporation and snow calculation and thus for the water balance. Water temperatures of the system elements are not simulated.
Losses of water, substances or thermal energy can be made via the elements consumer and diversion. Reservoir elements can also withdraw water from the system if the evaporation calculation is activated. Via the discharge splitting of the catchment area elements it is possible to discharge individual discharge components from the system in addition to the evaporation term (e.g. urban surface runoff or deep base runoff).
Depending on the simulation type and system element, there are different possibilities for entering loads:
- Simulation type long-term simulation
- - Hydrographs
- - Time series
- Simulation type short-term forecast
- - model rain
- - flood waves from flood characteristics
Hydrographs: Yearly, weekly, daily course
If charts are chosen as input option for a load, a constant value can be scaled with a recurring constant yearly and/or weekly and/or daily course. For daily courses, a value can be defined for each hour of the day, for weekly courses a constant value for each day of the week and for annual courses, either constant monthly values can be defined or variable limits can be drawn via concrete date entries. In the datasheets of system elements only the assignment of hydrographs is done. The hydrographs are created independently from single system elements in the respective hydrograph window.
Time series
thumb|Interpretation of time series Time series are time sequences of data, i.e. ascending date and time stamps are assigned to values. Both measurement time series and simulated time series can be used as model input.
It is important that the time series are gap-free over the simulation period. Possible gaps in the time series must be closed before (e.g. by regressions to similar time series or by other assumptions). Ideally, but not necessarily, the time series are equidistant in at least the resolution of the simulation time step. Apart from the date and time series value, the interpretation of the time series is also crucial for the simulation. Furthermore, it is important to ensure that time series are given in the appropriate unit (e.g. m³/s for the discharge or mg/l for the concentration). Some system elements offer the option to scale time series with an additional factor.
In the data sheets of system elements only the time series assignment is done. The time series are created independently from individual system elements and even independently from variants and projects centrally in the time series management and stored on the server, i.e. time series of a client can be used in different projects.