== Initialization parameters ==

----


'''Mode:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#averaging_interval '''averaging_interval''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
R
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
0.0
}}}
{{{#!td
Averaging interval for all output of temporally averaged data (in s).\\\\
This parameter defines the time interval length for temporally averaged data (vertical profiles, spectra, 2d cross-sections, 3d volume data). By default, data are not subject to temporal averaging. The interval length is limited by the parameter
[[#dt_data_output_av dt_data_output_av]]. In any case, '''averaging_interval <= dt_data_output_av''' must hold.\\\\
If an interval is defined, then by default the average is calculated from the data values of all timesteps lying within this interval. The number of time levels entering into the average can be reduced with the parameter [#dt_averaging_input dt_averaging_input].\\\\
If an averaging interval can not be completed at the end of a run, it will be finished at the beginning of the next restart run. Thus for restart runs, averaging intervals do not necessarily begin at the beginning of the run.\\\\
Parameters [#averaging_interval_pr averaging_interval_pr] and [#averaging_interval_sp averaging_interval_sp] can be used to define different averaging intervals for vertical profile data and spectra, respectively.
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}
[[BR]]

'''Grid:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#averaging_interval '''averaging_interval''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
R
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
0.0
}}}
{{{#!td
Averaging interval for all output of temporally averaged data (in s).\\\\
This parameter defines the time interval length for temporally averaged data (vertical profiles, spectra, 2d cross-sections, 3d volume data). By default, data are not subject to temporal averaging. The interval length is limited by the parameter
[[#dt_data_output_av dt_data_output_av]]. In any case, '''averaging_interval <= dt_data_output_av''' must hold.\\\\
If an interval is defined, then by default the average is calculated from the data values of all timesteps lying within this interval. The number of time levels entering into the average can be reduced with the parameter [#dt_averaging_input dt_averaging_input].\\\\
If an averaging interval can not be completed at the end of a run, it will be finished at the beginning of the next restart run. Thus for restart runs, averaging intervals do not necessarily begin at the beginning of the run.\\\\
Parameters [#averaging_interval_pr averaging_interval_pr] and [#averaging_interval_sp averaging_interval_sp] can be used to define different averaging intervals for vertical profile data and spectra, respectively.
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}
[[BR]]

'''Numerics:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#averaging_interval '''averaging_interval''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
R
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
0.0
}}}
{{{#!td
Averaging interval for all output of temporally averaged data (in s).\\\\
This parameter defines the time interval length for temporally averaged data (vertical profiles, spectra, 2d cross-sections, 3d volume data). By default, data are not subject to temporal averaging. The interval length is limited by the parameter
[[#dt_data_output_av dt_data_output_av]]. In any case, '''averaging_interval <= dt_data_output_av''' must hold.\\\\
If an interval is defined, then by default the average is calculated from the data values of all timesteps lying within this interval. The number of time levels entering into the average can be reduced with the parameter [#dt_averaging_input dt_averaging_input].\\\\
If an averaging interval can not be completed at the end of a run, it will be finished at the beginning of the next restart run. Thus for restart runs, averaging intervals do not necessarily begin at the beginning of the run.\\\\
Parameters [#averaging_interval_pr averaging_interval_pr] and [#averaging_interval_sp averaging_interval_sp] can be used to define different averaging intervals for vertical profile data and spectra, respectively.
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}
[[BR]]

'''Boundary conditions:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#bc_e_b '''bc_e_b''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
C*20
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
'neumann'
}}}
{{{#!td
Bottom boundary condition of the TKE.\\\\
'''bc_e_b''' may be set to '''neumann''' or '''(u*) ** 2+neumann'''. '''bc_e_b''' = '''neumann''' yields to e(k=0)=e(k=1) (Neumann boundary condition), where e(k=1) is calculated via the prognostic TKE equation. Choice of '(u*)**2+neumann' also yields to e(k=0)=e(k=1), but the TKE at the Prandtl-layer top (k=1) is calculated diagnostically by e(k=1)=(us/0.1)**2. However, this is only allowed if a Prandtl-layer is used (#prandtl_layer). If this is not the case, a warning is given and '''bc_e_b''' is reset to 'neumann'.\\\\
At the top boundary a Neumann boundary condition is generally used: (e(nz+1) = e(nz)).
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}
[[BR]]

'''Initialization:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#averaging_interval '''averaging_interval''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
R
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
0.0
}}}
{{{#!td
Averaging interval for all output of temporally averaged data (in s).\\\\
This parameter defines the time interval length for temporally averaged data (vertical profiles, spectra, 2d cross-sections, 3d volume data). By default, data are not subject to temporal averaging. The interval length is limited by the parameter
[[#dt_data_output_av dt_data_output_av]]. In any case, '''averaging_interval <= dt_data_output_av''' must hold.\\\\
If an interval is defined, then by default the average is calculated from the data values of all timesteps lying within this interval. The number of time levels entering into the average can be reduced with the parameter [#dt_averaging_input dt_averaging_input].\\\\
If an averaging interval can not be completed at the end of a run, it will be finished at the beginning of the next restart run. Thus for restart runs, averaging intervals do not necessarily begin at the beginning of the run.\\\\
Parameters [#averaging_interval_pr averaging_interval_pr] and [#averaging_interval_sp averaging_interval_sp] can be used to define different averaging intervals for vertical profile data and spectra, respectively.
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}
[[BR]]

'''Topography:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#averaging_interval '''averaging_interval''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
R
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
0.0
}}}
{{{#!td
Averaging interval for all output of temporally averaged data (in s).\\\\
This parameter defines the time interval length for temporally averaged data (vertical profiles, spectra, 2d cross-sections, 3d volume data). By default, data are not subject to temporal averaging. The interval length is limited by the parameter
[[#dt_data_output_av dt_data_output_av]]. In any case, '''averaging_interval <= dt_data_output_av''' must hold.\\\\
If an interval is defined, then by default the average is calculated from the data values of all timesteps lying within this interval. The number of time levels entering into the average can be reduced with the parameter [#dt_averaging_input dt_averaging_input].\\\\
If an averaging interval can not be completed at the end of a run, it will be finished at the beginning of the next restart run. Thus for restart runs, averaging intervals do not necessarily begin at the beginning of the run.\\\\
Parameters [#averaging_interval_pr averaging_interval_pr] and [#averaging_interval_sp averaging_interval_sp] can be used to define different averaging intervals for vertical profile data and spectra, respectively.
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}
[[BR]]

'''Canopy:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#averaging_interval '''averaging_interval''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
R
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
0.0
}}}
{{{#!td
Averaging interval for all output of temporally averaged data (in s).\\\\
This parameter defines the time interval length for temporally averaged data (vertical profiles, spectra, 2d cross-sections, 3d volume data). By default, data are not subject to temporal averaging. The interval length is limited by the parameter
[[#dt_data_output_av dt_data_output_av]]. In any case, '''averaging_interval <= dt_data_output_av''' must hold.\\\\
If an interval is defined, then by default the average is calculated from the data values of all timesteps lying within this interval. The number of time levels entering into the average can be reduced with the parameter [#dt_averaging_input dt_averaging_input].\\\\
If an averaging interval can not be completed at the end of a run, it will be finished at the beginning of the next restart run. Thus for restart runs, averaging intervals do not necessarily begin at the beginning of the run.\\\\
Parameters [#averaging_interval_pr averaging_interval_pr] and [#averaging_interval_sp averaging_interval_sp] can be used to define different averaging intervals for vertical profile data and spectra, respectively.
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}
[[BR]]

'''Others:'''\\
||='''Parameter Name'''  =||='''Type'''  =||='''Default Value'''  =||='''Explanation'''  =||
|----------------
{{{#!td style="vertical-align:top; text-align:left;width: 150px"
[=#averaging_interval '''averaging_interval''']
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 50px"
R
}}}
{{{#!td style="vertical-align:top; text-align:left;style="width: 100px"
0.0
}}}
{{{#!td
Averaging interval for all output of temporally averaged data (in s).\\\\
This parameter defines the time interval length for temporally averaged data (vertical profiles, spectra, 2d cross-sections, 3d volume data). By default, data are not subject to temporal averaging. The interval length is limited by the parameter
[[#dt_data_output_av dt_data_output_av]]. In any case, '''averaging_interval <= dt_data_output_av''' must hold.\\\\
If an interval is defined, then by default the average is calculated from the data values of all timesteps lying within this interval. The number of time levels entering into the average can be reduced with the parameter [#dt_averaging_input dt_averaging_input].\\\\
If an averaging interval can not be completed at the end of a run, it will be finished at the beginning of the next restart run. Thus for restart runs, averaging intervals do not necessarily begin at the beginning of the run.\\\\
Parameters [#averaging_interval_pr averaging_interval_pr] and [#averaging_interval_sp averaging_interval_sp] can be used to define different averaging intervals for vertical profile data and spectra, respectively.
}}}
|----------------
{{{#!td style="vertical-align:top"
[=#<insert_parameter_name> '''<insert_parameter_name>''']
}}}
{{{#!td style="vertical-align:top"
<insert type>
}}}
{{{#!td style="vertical-align:top"
<insert value>
}}}
{{{#!td
<insert explanation>
}}}