TDKSF: Difference between revisions

Revision as of 11:00, 17 August 2012

Basic Information

Name of Program

TDKSF

Version-Date

10.x / August 2012

Description-Date

August 2012

Catchwords

postprocessor
analysis of numerically calculated results (2D/3D, profile-data as well as data at specific locations)
tidal characteristic numbers of salinity
tidal characteristic numbers of suspended sediment
tidal characteristic numbers of tracer load
tidal characteristic numbers of temperature
estuaries
static (alternative) bathymetry
universal direct access data format for 2D/3D-data
universal direct access data format for profile-data
universal direct access format for data at specific locations

Short Description of Functionality

The program TDKSF is a postprocessor for different numerical models (e.g. TRIM-2D, TRIM-3D, TELEMAC-2D, UNTRIM, UNTRIM2007, etc.). TDKSF automatically computes the

tidal characteristic numbers of salinity,
tidal characteristic numbers of suspended sediment,
tidal characteristic numbers of tracer load, or the
tidal characteristic numbers of temperature.

for a given set of results (universal direct access data format).

Data analyses can only be performed for static (constant in time) bathymetry. Bathymetry data must be either present in the grid file or given as alternative bathymetry in the data file containing also the computational results for water level. The results of TDKSF analyses may be visualized/displayed with the graphical postprocessors HVIEW2D (for 2D/3D-data), LQ2PRO (for profile-data) or GVIEW2D (for specific locations).

Within the period of data analysis the following tidal characteristic numbers of salinity are calculated (some numbers are optionally calculated):

Flood Current

Advective Salt Transport due to Flood Current

Ebb Current

Advective Salt Transport due to Ebb Current

Tidal Cycle

Within the period of data analysis the following tidal characteristic numbers of suspended sediment transport are calculated (some numbers are optionally calculated):

Flood Current

Advective Suspended Sediment Transport due to Flood Current

Ebb Current

Advective Suspended Sediment Transport due to Ebb Current

Tidal Cycle

Within the period of data analysis the following tidal characteristic numbers of tracer transport are calculated (some numbers are optionally calculated):

Flood Current

Advective Tracer Transport due to Flood Current

Ebb Current

Advective Tracer Transport due to Ebb Current

Tidal Cycle

Within the period of data analysis the following tidal characteristic numbers of temperature (heat) transport are calculated (some numbers are optionally calculated):

Flood Current

Advective Heat Transport due to Flood Current

Ebb Current

Advective Heat Transport due to Ebb Current

Tidal Cycle

For each characteristic number of salinity, suspended sediment concentration, tracer concentration or temperature the following values are being calculated for the period of data analysis:

Characteristic value for each tide within the period of data analysis
Mean value for the period of data analysis
Maximum value for the period of data analysis
Minimum value for the period of data analysis

Input-Files

general input data (filetype tdksf.dat)
synoptic results which shall be analysed (files of type dirz.bin.r, dirz.bin.i and dirz.bin)
grid for 2D/3D-data (filetype gitter05.dat/bin or filetype untrim_grid.dat)

or profile-topography for profile-data (filetype profil05.bin)

or system file for specific locations (filetype location_grid.dat)

Output-Files

results of data analyses (files of type dirz.bin.r, dirz.bin.i and dirz.bin)
informative printer file (filetype Tdksf.sdr)
(optional) trace of program execution (filetype Tdksf.trc)

Methodology

At first some extreme events (HW and LW) for the water level are determined together with the times for slack water (ebb slack and flood slack) for a network of reference locations for each tidal cycle. This ensures the phase-correct ordering of the events for all nodes of the computational grid respectively profile-topography or specific locations. Thereafter the tidal characteristic numbers are calculated at all nodal points, using the formerly calculated results at the reference locations. To obtain a more precise calculation of the times and values for all tidal characteristic numbers a spline interpolation is used to interpolate between equidistant time series data at each nodal point. Drying and wetting of tidal flats is taken into account by the algorithm.

Program(s) to run before this Program

DIDARENAME, DIDASPLIT, ZEITR

Program(s) to run after this Program

ABDF, DIDARENAME, DIDASPLIT, GVIEW2D, HVIEW2D, LQ2PRO, VTDK, VVIEW2D, XTRDATA

Additional Information

Language

Fortran90

Additional software

-

Original Version

G. Lang

Maintenance

G. Lang, S. Spohr

Documentation/Literature

please refer to $PROGHOME/examples/Tdksf/

back to Program Descriptions

Overview

@@ Line 2: / Line 2: @@
 |name_de=TDKSF
 |name=TDKSF
-|version=9.x / August 2009
+|version=10.x / August 2012
-|version_descr=August 2009
+|version_descr=August 2012
 |catchwords=postprocessor<br />
 analysis of numerically calculated results (2D/3D, profile-data as well as data at specific locations)<br />
 tidal characteristic numbers of salinity<br />
 tidal characteristic numbers of suspended sediment<br />
+tidal characteristic numbers of tracer load<br />
 tidal characteristic numbers of temperature<br />
 estuaries<br />
@@ Line 18: / Line 19: @@
 * tidal characteristic numbers of salinity,
-* tidal characteristic numbers of suspended sediment, or the
+* tidal characteristic numbers of suspended sediment,
+* tidal characteristic numbers of tracer load, or the
 * tidal characteristic numbers of temperature.
@@ Line 53: / Line 55: @@
 :* [[Tidal Characteristic Numbers of Suspended Sediment Transport#Tidal Cycle|Residual Advective Suspended Sediment Transport during a Tidal Cycle]]
 :* [[Tidal Characteristic Numbers of Suspended Sediment Transport#Tidal Cycle|Ratio Advective Suspended Sediment Transport due to Flood Current : Advective Suspended Sediment Transport due to Ebb Current]]
+Within the period of data analysis the following tidal characteristic numbers of tracer transport are calculated (some numbers are optionally calculated):
+* Flood Current
+:* [[Tidal Characteristic Numbers of Tracer Load#Flood Current|Advective Tracer Transport due to Flood Current]]
+* Ebb Current
+:* [[Tidal Characteristic Numbers of Tracer Load#Flood Current|Advective Tracer Transport due to Ebb Current]]
+* Tidal Cycle
+:* [[Tidal Characteristic Numbers of Tracer Load#Tidal Cycle|Maximum Tracer Concentration during a Tidal Cycle]]
+:* [[Tidal Characteristic Numbers of Tracer Load#Tidal Cycle|Minimum Tracer Concentration during a Tidal Cycle]]
+:* [[Tidal Characteristic Numbers of Tracer Load#Tidal Cycle|Mean Tracer Concentration during a Tidal Cycle]]
+:* [[Tidal Characteristic Numbers of Tracer Load#Tidal Cycle|Variation of Tracer Concentration during a Tidal Cycle]]
+:* [[Tidal Characteristic Numbers of Tracer Load#Tidal Cycle|Residual Advective Tracer Transport during a Tidal Cycle]]
+:* [[Tidal Characteristic Numbers of Tracer Load#Tidal Cycle|Ratio Advective Tracer Transport due to Flood Current : Advective Tracer Transport due to Ebb Current]]
 Within the period of data analysis the following tidal characteristic numbers of temperature (heat) transport are calculated (some numbers are optionally calculated):
@@ Line 68: / Line 84: @@
 :* [[Tidal Characteristic Numbers of Temperature#Tidal Cycle|Ratio Advective Heat Transport due to Flood Current : Advective Heat Transport due to Ebb Current]]
-For each characteristic number of salinity, suspended sediment concentration or temperature the following values are being calculated for the period of data analysis:
+For each characteristic number of salinity, suspended sediment concentration, tracer concentration or temperature the following values are being calculated for the period of data analysis:
 # Characteristic value for each tide within the period of data analysis