DiffEich.txt/csv

The DiffEich.txt (or DiffEich.csv) file is output after a flow calculation when the corresponding menu item (Source - Measured data) is selected in the plot creation dialogue. The file contains the following information:

x-coordinate, y-coordinate, difference (calculated - measured), measured value, calculated GW level

 

C<Node/Element-nr.>.csv

The file C<node/element no.>.csv is output after a transient flow calculation when the corresponding menu item (Plot type: Hydrograph - Plot with measured data) is selected in the plot creation dialogue. The file contains the following information:

Calculated GW level, measured value, time step, monitoring well name (from sollpot file)

 

More detailed information on these two files can be found in chapter "SPRING-Menues" in "Plot - Measured data".

 

reaktion.csv

The reaktion.csv file is created during a flow calculation as soon as the BILK attribute has been assigned to at least one node with the POTE attribute in the model file (*.net or *.3d).

The first line of the file contains the values of the BILK attribute in descending order. The balance areas of the first layer (if available in the *.net file) are listed first in descending order. This is followed by the balance areas of the lower layers (from the *.3d file) in descending order.

The second line contains the steady state case:

The consecutive number of the time step (steady state = 1.0), time (steady state = 0.0), respective sum of the mass flow rates of the balance areas assigned in the first line.

In the transient case, the second and subsequent lines contain:

The consecutive number of the time step, time from the transient input file, respective sum of the mass flow rates of the balance areas assigned in the first line.

 

leakageBILK.csv

The leakageBILK.csv file is created during a flow calculation as soon as the BILK attribute has been assigned to at least one node with the LEKN or LERA attribute in the model file (*.net or *.3d).

The first line of the file contains the values of the BILK attribute in descending order. The balance areas of the first layer (if available in the *.net file) are listed first in descending order. This is followed by the balance areas of the lower layers (from the *.3d file) in descending order.

 

The second line contains the steady state case:

The consecutive number of the time step (steady state = 1.0), time (steady state = 0.0), respective sum of the leakage rates [m³/TU] of the balance areas assigned in the first line.

In the transient case, the second and subsequent lines contain the consecutive number of the time step, time from the transient input file, respective sum of the leakage rates [m³/TU] of the balance areas assigned in the first line.

 

leakageBILE.csv

The leakageBILE.csv file is created during a flow calculation as soon as the BILE attribute has been assigned to at least one element with the LEEL attribute in the model file (*.net or *.3d).

The further structure corresponds exactly to that of the leakageBILK.csv file.

 

sick.csv

The sick.csv file is created during a flow calculation as soon as the BILK attribute has been assigned to at least one node with the SICK attribute in the model file (*.net or *.3d).

The further structure corresponds to that of the leakageBILK.csv file, with the difference that in the sick.csv, the sum of the seepage rate [m³/TU] is output for the respective balance area.

 

 

glei.csv

The glei.csv file is created during a flow calculation as soon as the BILK attribute has been assigned to at least one node with the GLEI attribute in the model file (*.net or *.3d).

The further structure corresponds to that of the leakageBILK.csv file, with the difference that in the glei.csv the height of the resulting groundwater level in [m] is displayed for the respective balance area.

 

 

gruben.csv

The file gruben.csv is generated during a flood simulation.

A volume hydrograph is generated for each pit (GRUB attribute), which describes the current impoundment volume for each time step and, if a reference water level is defined (HMAX and MENG attributes), the volume to be impounded. In addition, the volumes for the individual boundary condition types are saved for each time step.

The first line of the file contains the names of the individual columns, sorted by pit 1, pit 2, etc.

The following lines contain the data:

Time step, current impoundment volume, removed volume (if defined), rate of the boundary condition seepage (node is unsaturated), rate of the boundary condition fixed potential head (node is saturated), rate of the watercourse boundary condition with leakage (node is saturated).

 

 

Background files