Difference between revisions of "TUFLOW Example Models"

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= Introduction =
 
= Introduction =
The example models have been developed to demonstrate the most common TUFLOW model design features and applications. This dataset is useful for experienced modellers wishing to further develop their skills, or looking for model configuration examples. Although the models are based on the TUFLOW tutorial model dataset, new users are encouraged to familiarise themselves with TUFLOW through the <u>[[Tutorial_Model|TUFLOW Tutorial Models]]</u> before using this dataset. Unlike the tutorials this dataset does not include step-by-step instructions / documentation. Users of this dataset are expected to have a basic knowledge TUFLOW, and have suitable skills to open the model files by referencing the TUFLOW Control File (TCF) referenced in the feature catalogue list below. <br>
+
These example models have been developed to demonstrate the most common TUFLOW model design features and applications. This dataset is useful for experienced modellers wishing to further develop their skills via demonstration examples. Although the models are based on the TUFLOW tutorial model dataset, new users are encouraged to familiarise themselves with TUFLOW through the <u>[[Tutorial_Introduction |Tutorial Model Introduction]]</u> before using this dataset. Unlike the tutorials, this dataset does not include step-by-step instructions / documentation. Users of this dataset are expected to have a basic knowledge TUFLOW, and have suitable skills to open the model files by referencing the TUFLOW Control File (TCF) referenced in the feature catalogue list below. <br>
  
 
=Example Model Data=
 
=Example Model Data=
The model data is available for download from the TUFLOW website.
+
The model data is available for download from <u>https://downloads.tuflow.com/TUFLOW/Wiki_Example_Models/TUFLOW_Example_Model_Dataset.zip</u><br>
QGIS files: <u>https://downloads.tuflow.com/TUFLOW/Wiki_Example_Models/Example_Model_Dataset_2020-10-AC.zip</u><br>
+
The dataset only includes model input files. The models can be run to create simulation check and result files. Batch files (*.bat) for each of the example feature categories has been provided within the "runs" folder of the TUFLOW project. <br>
The download dataset only includes model input files to keep the file download to a manageable size. The models can be run to create simulation check and result files. Batch files (*.bat) for each of the example subcategories has been provided. Additional information on how to use and update batch files to execute multiple simulations is available here: <u>[[Run_TUFLOW_From_a_Batch-file| Run TUFLOW From a Batch-file]]</u>.
+
 
 +
If you are unfamiliar with using batch files, additional information explaining how to use them to execute multiple simulations is available here: <u>[[Run_TUFLOW_From_a_Batch-file| Run TUFLOW From a Batch-file]]</u>.
  
 
=Example Model Catalogue=
 
=Example Model Catalogue=
Below is a complete list of the example models. This dataset uses TUFLOW HPC as the computational engine. If you are searching for TUFLOW Classic example models please refer to the <u>[[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]<\u>.  
+
Below is a complete list of the example models. This dataset uses TUFLOW HPC as the computational engine. If you are searching for TUFLOW Classic example models, please refer to the <u>[[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]</u>.  
  
Click on the following shortcuts to skip directly to the targetted major feature category in the table below:<br>
+
Click on the following shortcuts to skip directly to the targeted major feature category in the table below:<br>
* [[TUFLOW_Example_Models#Project Initiation| Project Initiation]]
+
* <u>[[TUFLOW_Example_Models#Project Initiation| Project Initiation]]</u>
* [[TUFLOW_Example_Models#Model Units| Model Units]]
+
* <u>[[TUFLOW_Example_Models#Model Units| Model Units]]</u>
* [[TUFLOW_Example_Models#Solver Options| Solver Options]]
+
* <u>[[TUFLOW_Example_Models#Solver Options| Solver Options]]</u>
* [[TUFLOW_Example_Models#Output Options| Output Options]]
+
* <u>[[TUFLOW_Example_Models#Output Options| Output Options]]</u>
* [[TUFLOW_Example_Models#Boundary Condition Options| Boundary Condition Options]]
+
* <u>[[TUFLOW_Example_Models#Boundary Condition Options| Boundary Condition Options]]</u> (Inflows, Outflows, Losses)
* [[TUFLOW_Example_Models#Topography Features| Topography Features]]
+
* <u>[[TUFLOW_Example_Models#Topography Features| Topography Features]]</u> (Static Updates, Dynamic Updates, Sub-Grid Sampling)
* [[TUFLOW_Example_Models#Structures| Structures]]
+
* <u>[[TUFLOW_Example_Models#Structures| Structures]]</u> (Bridges, Weirs, Culverts, Operational Controls)
* [[TUFLOW_Example_Models#Multiple Domain Model Design| Multiple Domain Model Design]]
+
* <u>[[TUFLOW_Example_Models#Multiple Domain Model Design| Multiple Domain Model Design]]</u> (2D/2D, 1D open channel / 2D floodplain, 1D pipe network / 2D floodplain)
* [[TUFLOW_Example_Models#Bulk Simulation Management| Bulk Simulation Management]]
+
* <u>[[TUFLOW_Example_Models#Bulk Simulation Management| Bulk Simulation Management]]</u>
* [[TUFLOW_Example_Models#Advection Dispersion| Advection Dispersion]]
+
* <u>[[TUFLOW_Example_Models#Advection Dispersion| Advection Dispersion]]</u>
  
 
{|class="wikitable" style="text-align: center;"
 
{|class="wikitable" style="text-align: center;"
Line 38: Line 39:
 
| EG00_001.tcf
 
| EG00_001.tcf
 
|-
 
|-
| Basic 2D model (USA units - ft)
+
| Basic 2D model (US units - ft)
 
| EG00_002.tcf
 
| EG00_002.tcf
 
|-
 
|-
Line 45: Line 46:
 
| rowspan="7" colspan="2" id="Solver Options" | <b>Solver Options</b>
 
| rowspan="7" colspan="2" id="Solver Options" | <b>Solver Options</b>
 
| TUFLOW Classic
 
| TUFLOW Classic
| N/A - refer to TUFLOW Classic example model archive dataset
+
| Refer to <u>[[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]</u>
 
|-
 
|-
 
| TUFLOW HPC - Sub-Grid Sampled (SGS) topography enabled
 
| TUFLOW HPC - Sub-Grid Sampled (SGS) topography enabled
Line 60: Line 61:
 
|-
 
|-
 
| TUFLOW HPC - Quadtree
 
| TUFLOW HPC - Quadtree
| See Section EG13
+
| See Section <u>[[TUFLOW_Example_Models#Multiple Domain Model Design| EG13]]</u>
 
|-
 
|-
 
| ESTRY
 
| ESTRY
| See Section EG11, EG12 and EG15
+
| See Section <u>[[TUFLOW_Example_Models#1D Culverts, Bridges, Weirs| EG11]]</u>, <u>[[TUFLOW_Example_Models#1D Operating Structures| EG12]]</u>, <u>[[TUFLOW_Example_Models#1D Pipe Network / 2D Floodplain Modelling| EG15]]</u>
 
|-
 
|-
 
+
| rowspan="15" colspan="2" id="Output Options" | <b>Output Options</b>
|-
 
| rowspan="18" colspan="2" id="Output Options" | <b>Output Options</b>
 
 
| 2D xmdf (binary time series) and grid (maximums) output
 
| 2D xmdf (binary time series) and grid (maximums) output
 
| EG02_001.tcf
 
| EG02_001.tcf
Line 79: Line 78:
 
| Time and duration of inundation (Time Output Cut-off = Hazard)
 
| Time and duration of inundation (Time Output Cut-off = Hazard)
 
| EG02_004.tcf
 
| EG02_004.tcf
|-
 
| Gauge level map output interval control (2d_glo)
 
| TUFLOW Classic Only. Future TUFLOW HPC release
 
 
|-
 
|-
 
| 2D SGS high resolution grid output
 
| 2D SGS high resolution grid output
Line 92: Line 88:
 
| EG02_008.tcf
 
| EG02_008.tcf
 
|-
 
|-
| Write restart file(See EG06_004.tcf for Read Restart)
+
| Write Restart File(See EG06_004.tcf for Read Restart File)
 
| EG02_009.tcf
 
| EG02_009.tcf
 
|-
 
|-
Line 100: Line 96:
 
| 2D structure outputs
 
| 2D structure outputs
 
| EG02_011.tcf
 
| EG02_011.tcf
|-
 
| 2D long Profile
 
| TUFLOW Classic Only. Future TUFLOW HPC release
 
 
|-
 
|-
 
| 1D/2D reporting locations
 
| 1D/2D reporting locations
 
| EG02_013.tcf
 
| EG02_013.tcf
|-
 
| Translating gauge data information to catchment receptors
 
| TUFLOW Classic Only. Future TUFLOW HPC release
 
 
|-
 
|-
 
| Evacuation route inundation reporting (2d_zshr) (Route Cut Off Type = Depth)
 
| Evacuation route inundation reporting (2d_zshr) (Route Cut Off Type = Depth)
Line 123: Line 113:
  
 
|-
 
|-
| rowspan="38" id="Boundary Condition Options" | <b>Boundary Condition Options</b>
+
| rowspan="41" id="Boundary Condition Options" | <b>Boundary Condition Options</b>
| rowspan="14" id="Inflows" | <b>Inflows</b>
+
| rowspan="15" id="Inflows" | <b>Inflows</b>
 
| 2D flow (m^3/s) vs time upstream inflow (2d_bc, QT)
 
| 2D flow (m^3/s) vs time upstream inflow (2d_bc, QT)
 
| EG03_001.tcf
 
| EG03_001.tcf
Line 134: Line 124:
 
| EG03_003.tcf
 
| EG03_003.tcf
 
|-
 
|-
| Internal catchment rainfall (m^3/s) with streamlines (2d_sa)
+
| Internal catchment inflow (m^3/s) with streamlines (2d_sa)
 
| EG03_004.tcf
 
| EG03_004.tcf
 
|-
 
|-
Line 160: Line 150:
 
| Direct rainfall (mm) (time varying gridded rainfall) - flt format
 
| Direct rainfall (mm) (time varying gridded rainfall) - flt format
 
| EG03_012.tcf
 
| EG03_012.tcf
 +
|-
 +
| Direct rainfall (mm) (2D_rf) - negative rainfall
 +
| EG03_013.tcf
 
|-
 
|-
 
| 1D flow (m^3/s) vs time upstream inflow (1d_bc, QT)
 
| 1D flow (m^3/s) vs time upstream inflow (1d_bc, QT)
| EG03_013.tcf
+
| EG14_001.tcf
 
|-
 
|-
 
| 1D flow (m^3/s) vs time internal inflow (1d_bc, QT)
 
| 1D flow (m^3/s) vs time internal inflow (1d_bc, QT)
| EG03_014.tcf
+
| EG14_002.tcf
 
|-
 
|-
  
 
| rowspan="4" id="Outflows" | <b>Outflows</b>
 
| rowspan="4" id="Outflows" | <b>Outflows</b>
 
| 2D Stage discharge downstream boundary (2d_bc, HQ)
 
| 2D Stage discharge downstream boundary (2d_bc, HQ)
| EG03_015.tcf
+
| EG04_001.tcf
 
|-
 
|-
 
|2D Stage time downstream boundary (2d_bc, HT)
 
|2D Stage time downstream boundary (2d_bc, HT)
| EG03_016.tcf
+
| EG04_002.tcf
 
|-
 
|-
 
|1D Stage discharge downstream boundary (1d_bc, HQ)
 
|1D Stage discharge downstream boundary (1d_bc, HQ)
| EG03_017.tcf
+
| EG04_003.tcf
 
|-
 
|-
 
|1D Stage time downstream boundary (1d_bc, HT)
 
|1D Stage time downstream boundary (1d_bc, HT)
| EG03_018.tcf
+
| EG04_004.tcf
 
|-  
 
|-  
  
 
| rowspan="14" id="Loss Options" | <b>Loss Options</b>
 
| rowspan="14" id="Loss Options" | <b>Loss Options</b>
 
| Rainfall excess loss approach - IL/CL (Global loss applied via the TBC file)
 
| Rainfall excess loss approach - IL/CL (Global loss applied via the TBC file)
| EG04_001.tcf
+
| EG05_001.tcf
 
|-
 
|-
 
| Rainfall excess loss approach - IL/CL (applied via the materials file)
 
| Rainfall excess loss approach - IL/CL (applied via the materials file)
| EG04_002.tcf
+
| EG05_002.tcf
 
|-
 
|-
 
| Infiltration loss approach - IL/CL
 
| Infiltration loss approach - IL/CL
| EG04_003.tcf
+
| EG05_003.tcf
 
|-
 
|-
| Infiltration loss approach - IL/CL
+
| Infiltration loss approach - IL/CL, porosity
| EG04_004.tcf
+
| EG05_004.tcf
 
|-
 
|-
| Infiltration loss approach - IL/CL
+
| Infiltration loss approach - IL/CL, porosity, initial moisture
| EG04_005.tcf
+
| EG05_005.tcf
 
|-
 
|-
 
| Infiltration loss approach - Green Ampt (USDA soil type)
 
| Infiltration loss approach - Green Ampt (USDA soil type)
| EG04_006.tcf
+
| EG05_006.tcf
 
|-
 
|-
| Infiltration loss approach - Green Ampt (USDA soil type)
+
| Infiltration loss approach - Green Ampt (USDA soil type), initial moisture
| EG04_007.tcf
+
| EG05_007.tcf
 
|-
 
|-
| Infiltration loss approach - Green Ampt (USDA soil type)
+
| Infiltration loss approach - Green Ampt (USDA soil type), initial moisture, ponding
| EG04_008.tcf
+
| EG05_008.tcf
 
|-
 
|-
 
| Infiltration loss approach - Green Ampt (User specified soil properties)
 
| Infiltration loss approach - Green Ampt (User specified soil properties)
| EG04_009.tcf
+
| EG05_009.tcf
 
|-
 
|-
| Infiltration loss approach - Green Ampt (User specified soil properties)
+
| Infiltration loss approach - Green Ampt (User specified soil properties), initial moisture
| EG04_010.tcf
+
| EG05_010.tcf
 
|-
 
|-
| Infiltration loss approach - Green Ampt (User specified soil properties)
+
| Infiltration loss approach - Green Ampt (User specified soil properties), initial moisture, ponding
| EG04_011.tcf
+
| EG05_011.tcf
 
|-
 
|-
 
| Infiltration loss approach - Horton  
 
| Infiltration loss approach - Horton  
| EG04_012.tcf
+
| EG05_012.tcf
 
|-
 
|-
| Infiltration loss approach - Horton  
+
| Infiltration loss approach - Horton, porosity
| EG04_013.tcf
+
| EG05_013.tcf
 
|-
 
|-
| Infiltration loss approach - Horton  
+
| Infiltration loss approach - Horton, porosity, initial moisture
| EG04_014.tcf
+
| EG05_014.tcf
 
|-
 
|-
  
| rowspan="6" id="Other" | <b>Other</b>
+
| rowspan="8" id="Other" | <b>Other</b>
 
| Spatially varied initial water level commands (2d_iwl)
 
| Spatially varied initial water level commands (2d_iwl)
 
| EG06_001.tcf
 
| EG06_001.tcf
Line 236: Line 229:
 
| EG06_003.tcf
 
| EG06_003.tcf
 
|-
 
|-
| Read Restart File (See EG02_009.tcf for Write Restart)
+
| Read Restart File (See EG02_009.tcf for Write Restart File)
 
| EG06_004.tcf
 
| EG06_004.tcf
 
|-
 
|-
| Groundwater
+
| Storage Reduction Factor (global specification)
| Future release
+
| EG06_005.tcf
 +
|-
 +
| Storage Reduction Factor (2d_srf) (location specific update)
 +
| EG06_006.tcf
 +
|-
 +
| External Stress - Wind (global specification)
 +
| EG06_007.tcf
 
|-
 
|-
 
| Dynamic Topography Options (Dam / Levee Failure)
 
| Dynamic Topography Options (Dam / Levee Failure)
| See Section EG08
+
| See Section <u>[[TUFLOW_Example_Models#Dynamic Topography Updates| EG08]]</u>
  
 
|-
 
|-
Line 316: Line 315:
 
|-
 
|-
 
| 1D dam failure - Time trigger
 
| 1D dam failure - Time trigger
| EG08_012.tcf
+
| EG08_011.tcf
 
|-
 
|-
 
| 1D piping failure transitioning to 1D dam failure - Water level trigger
 
| 1D piping failure transitioning to 1D dam failure - Water level trigger
| EG08_013.tcf
+
| EG08_012.tcf
 
|-
 
|-
 
| 1D dam failure - Water level trigger
 
| 1D dam failure - Water level trigger
| EG08_014.tcf
+
| EG08_013.tcf
 
|-
 
|-
 
| rowspan="3" id="Sub Grid Sampling" | <b>Sub Grid Sampling</b>
 
| rowspan="3" id="Sub Grid Sampling" | <b>Sub Grid Sampling</b>
Line 334: Line 333:
 
| EG09_003.tcf
 
| EG09_003.tcf
 
|-
 
|-
| rowspan="25" id="Structures" | <b>Structures</b>
+
| rowspan="26" id="Structures" | <b>Structures</b>
| rowspan="6" id="2D Bridges and Weirs" | <b>2D Bridges and Weirs</b>
+
| rowspan="7" id="2D Bridges and Weirs" | <b>2D Bridges and Weirs</b>
 
| Bridge (2d_fc)
 
| Bridge (2d_fc)
| N/A - refer to TUFLOW Classic example model archive dataset
+
| Refer to <u>[[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]</u>
 
|-
 
|-
 
| Bridge (2d_fcsh)  
 
| Bridge (2d_fcsh)  
| N/A - refer to TUFLOW Classic example model archive dataset
+
| Refer to <u>[[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]</u>
 
|-
 
|-
 
| Bridge - horizontal deck (2d_lfcsh)  
 
| Bridge - horizontal deck (2d_lfcsh)  
Line 347: Line 346:
 
| Bridge - variable deck form geometry (2d_lfcsh)  
 
| Bridge - variable deck form geometry (2d_lfcsh)  
 
| EG10_004.tcf
 
| EG10_004.tcf
 +
|-
 +
| Bridge - horizontal deck (2d_bg)
 +
| EG10_005.tcf
 
|-
 
|-
 
| 2D weir coefficient change (global specification)  
 
| 2D weir coefficient change (global specification)  
| EG10_005.tcf
+
| EG10_006.tcf
 
|-
 
|-
 
| 2D weir coefficient change (location specific update)  
 
| 2D weir coefficient change (location specific update)  
| EG10_006.tcf
+
| EG10_007.tcf
 
|-
 
|-
  
Line 366: Line 368:
 
|-
 
|-
 
| 1D culverts - ARR2016 blockage matrix (1d_nwk)
 
| 1D culverts - ARR2016 blockage matrix (1d_nwk)
| EG11_004.tcf
+
| EG11_~e1~_~e2~_004.tcf
 
|-
 
|-
 
| 1D M channel - User defined flow matrix (1d_nwk)
 
| 1D M channel - User defined flow matrix (1d_nwk)
Line 428: Line 430:
 
|-
 
|-
 
| TUFLOW Classic - M2D
 
| TUFLOW Classic - M2D
| N/A - refer to TUFLOW Classic example model archive dataset
+
| Refer to <u>[[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]</u>
 
|-
 
|-
 
| rowspan="1" id="1D Open Channel / 2D Floodplain Modelling" | <b>1D Open Channel / 2D Floodplain Modelling</b>
 
| rowspan="1" id="1D Open Channel / 2D Floodplain Modelling" | <b>1D Open Channel / 2D Floodplain Modelling</b>
Line 435: Line 437:
 
|-
 
|-
  
| rowspan="8" id="1D Pipe Network / 2D Floodplain Modelling" | <b>1D Pipe Network / 2D Floodplain Modelling</b>
+
| rowspan="9" id="1D Pipe Network / 2D Floodplain Modelling" | <b>1D Pipe Network / 2D Floodplain Modelling</b>
| 1D pipe network (1d_nwk), 2D floodplain, 2d sa inflow to 1D pits  
+
| 1D pipe network (1d_nwk), 2D floodplain, 2d sa rf inflow (mm) to 1D pits
 +
| EG15_000.tcf
 +
|-
 +
| 1D pipe network (1d_nwk), 2D floodplain, 2d sa inflow (m^3/s)to 1D pits  
 
| EG15_001.tcf
 
| EG15_001.tcf
 
|-
 
|-
Line 489: Line 494:
  
 
= Archive Dataset =
 
= Archive Dataset =
Historic example model datasets can be accessed via the following link: [[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]
+
Historic example model datasets can be accessed via the following link: <u>[[TUFLOW_Classic_Example_Model_Archive| TUFLOW Classic Example Model Archive]]</u>.
  
 
<br>
 
<br>

Revision as of 09:57, 9 May 2023

Introduction

These example models have been developed to demonstrate the most common TUFLOW model design features and applications. This dataset is useful for experienced modellers wishing to further develop their skills via demonstration examples. Although the models are based on the TUFLOW tutorial model dataset, new users are encouraged to familiarise themselves with TUFLOW through the Tutorial Model Introduction before using this dataset. Unlike the tutorials, this dataset does not include step-by-step instructions / documentation. Users of this dataset are expected to have a basic knowledge TUFLOW, and have suitable skills to open the model files by referencing the TUFLOW Control File (TCF) referenced in the feature catalogue list below.

Example Model Data

The model data is available for download from https://downloads.tuflow.com/TUFLOW/Wiki_Example_Models/TUFLOW_Example_Model_Dataset.zip
The dataset only includes model input files. The models can be run to create simulation check and result files. Batch files (*.bat) for each of the example feature categories has been provided within the "runs" folder of the TUFLOW project.

If you are unfamiliar with using batch files, additional information explaining how to use them to execute multiple simulations is available here: Run TUFLOW From a Batch-file.

Example Model Catalogue

Below is a complete list of the example models. This dataset uses TUFLOW HPC as the computational engine. If you are searching for TUFLOW Classic example models, please refer to the TUFLOW Classic Example Model Archive.

Click on the following shortcuts to skip directly to the targeted major feature category in the table below:

Example Model Catalogue
Model Category Description Model Name
Project Initiation Write empty files Create_Empties.tcf
Model Units Basic 2D model (SI units - m) EG00_001.tcf
Basic 2D model (US units - ft) EG00_002.tcf
Solver Options TUFLOW Classic Refer to TUFLOW Classic Example Model Archive
TUFLOW HPC - Sub-Grid Sampled (SGS) topography enabled EG01_002.tcf
TUFLOW HPC - Sub-Grid Sampled (SGS) topography disabled EG01_003.tcf
TUFLOW HPC - Multiple GPU cards EG01_004.tcf
TUFLOW HPC - Non-Newtonian flow EG01_005.tcf
TUFLOW HPC - Quadtree See Section EG13
ESTRY See Section EG11, EG12, EG15
Output Options 2D xmdf (binary time series) and grid (maximums) output EG02_001.tcf
Time and duration of inundation (Time Output Cut-off = Depth) EG02_002.tcf
Time and duration of inundation (Time Output Cut-off = VxD) EG02_003.tcf
Time and duration of inundation (Time Output Cut-off = Hazard) EG02_004.tcf
2D SGS high resolution grid output EG02_006.tcf
2D SGS high resolution grid output with manual specification of output resolution EG02_007.tcf
Output Zone (2d_oz) EG02_008.tcf
Write Restart File(See EG06_004.tcf for Read Restart File) EG02_009.tcf
2D plot output (2d_po point, line and region) EG02_010.tcf
2D structure outputs EG02_011.tcf
1D/2D reporting locations EG02_013.tcf
Evacuation route inundation reporting (2d_zshr) (Route Cut Off Type = Depth) EG02_015.tcf
Evacuation route inundation reporting (2d_zshr) (Route Cut Off Type = Velocity) EG02_016.tcf
Evacuation route inundation reporting (2d_zshr) (Route Cut Off Type = VxD) EG02_017.tcf
Evacuation route inundation reporting (2d_zshr) (Route Cut Off Type = Hazard) EG02_018.tcf
Boundary Condition Options Inflows 2D flow (m^3/s) vs time upstream inflow (2d_bc, QT) EG03_001.tcf
2D head (m) vs time upstream inflow (2d_bc, HT) EG03_002.tcf
Internal catchment inflow (m^3/s)(2d_sa) EG03_003.tcf
Internal catchment inflow (m^3/s) with streamlines (2d_sa) EG03_004.tcf
Internal catchment rainfall (mm) (2D_sa_rf) EG03_005.tcf
Direct rainfall (mm) (2D Global Rainfall) EG03_006.tcf
Direct rainfall (mm) (2D_rf) EG03_007.tcf
Direct rainfall (mm) (Rainfall Control File - IDW) EG03_008.tcf
Direct rainfall (mm) (Rainfall Control File - TIN) EG03_009.tcf
Direct rainfall (mm) (Rainfall Control File - Poly) EG03_010.tcf
Direct rainfall (mm) (time varying gridded rainfall) - netcdf format EG03_011.tcf
Direct rainfall (mm) (time varying gridded rainfall) - flt format EG03_012.tcf
Direct rainfall (mm) (2D_rf) - negative rainfall EG03_013.tcf
1D flow (m^3/s) vs time upstream inflow (1d_bc, QT) EG14_001.tcf
1D flow (m^3/s) vs time internal inflow (1d_bc, QT) EG14_002.tcf
Outflows 2D Stage discharge downstream boundary (2d_bc, HQ) EG04_001.tcf
2D Stage time downstream boundary (2d_bc, HT) EG04_002.tcf
1D Stage discharge downstream boundary (1d_bc, HQ) EG04_003.tcf
1D Stage time downstream boundary (1d_bc, HT) EG04_004.tcf
Loss Options Rainfall excess loss approach - IL/CL (Global loss applied via the TBC file) EG05_001.tcf
Rainfall excess loss approach - IL/CL (applied via the materials file) EG05_002.tcf
Infiltration loss approach - IL/CL EG05_003.tcf
Infiltration loss approach - IL/CL, porosity EG05_004.tcf
Infiltration loss approach - IL/CL, porosity, initial moisture EG05_005.tcf
Infiltration loss approach - Green Ampt (USDA soil type) EG05_006.tcf
Infiltration loss approach - Green Ampt (USDA soil type), initial moisture EG05_007.tcf
Infiltration loss approach - Green Ampt (USDA soil type), initial moisture, ponding EG05_008.tcf
Infiltration loss approach - Green Ampt (User specified soil properties) EG05_009.tcf
Infiltration loss approach - Green Ampt (User specified soil properties), initial moisture EG05_010.tcf
Infiltration loss approach - Green Ampt (User specified soil properties), initial moisture, ponding EG05_011.tcf
Infiltration loss approach - Horton EG05_012.tcf
Infiltration loss approach - Horton, porosity EG05_013.tcf
Infiltration loss approach - Horton, porosity, initial moisture EG05_014.tcf
Other Spatially varied initial water level commands (2d_iwl) EG06_001.tcf
Spatially varied initial water level commands (Grid 2d_iwl) EG06_002.tcf
2D pump (2d_bc, SH) EG06_003.tcf
Read Restart File (See EG02_009.tcf for Write Restart File) EG06_004.tcf
Storage Reduction Factor (global specification) EG06_005.tcf
Storage Reduction Factor (2d_srf) (location specific update) EG06_006.tcf
External Stress - Wind (global specification) EG06_007.tcf
Dynamic Topography Options (Dam / Levee Failure) See Section EG08
Topography Features Static Topography Updates Cell resolution change EG07_001.tcf
Thin breakline topography update (2d_zsh_L, 2d_zsh_P) EG07_002.tcf
Thick breakline topography update (2d_zsh_L, 2d_zsh_P) EG07_003.tcf
Gully (Min) breakline topography update (2d_zsh_L, 2d_zsh_P) EG07_004.tcf
Ridge (Max) breakline topography update (2d_zsh_L, 2d_zsh_P) EG07_005.tcf
Region update - Absolute value change, No merge (2d_zsh_R) EG07_006.tcf
Region update - Relative value change, No merge (2d_zsh_R) EG07_007.tcf
Region update - Absolute value change, Partial merge (2d_zsh_R, 2d_zsh_P) EG07_008.tcf
Region update - Feature removal (2d_zsh_R) EG07_009.tcf
Advanced topography update - TIN (2d_zsh_R, 2d_zsh_P) EG07_010.tcf
Advanced topography update - TIN (2d_zsh_R, 2d_zsh_L, 2d_zsh_P) EG07_011.tcf
Depth varying Manning's n EG07_012.tcf
Dynamic Topography Options (Dam / Levee Failure) 2D embankment failure - Time trigger, linear evolution EG08_001.tcf
2D embankment failure - Time trigger, non-linear evolution EG08_002.tcf
2D embankment failure - Water level trigger, linear evolution EG08_003.tcf
2D embankment failure - Water level trigger, non-linear evolution EG08_004.tcf
2D embankment failure - Water level difference trigger, linear evolution EG08_005.tcf
2D embankment failure - Water level difference trigger, non-linear evolution EG08_006.tcf
2D flood barrier reinstatement - Time trigger EG08_007.tcf
2D flood barrier reinstatement - Water level trigger EG08_008.tcf
2D flood barrier reinstatement - Water level difference trigger EG08_009.tcf
1D piping failure transitioning to 1D dam failure - Time trigger EG08_010.tcf
1D dam failure - Time trigger EG08_011.tcf
1D piping failure transitioning to 1D dam failure - Water level trigger EG08_012.tcf
1D dam failure - Water level trigger EG08_013.tcf
Sub Grid Sampling Breakline detection tool EG09_001.tcf
2D SGS high resolution grid output EG09_002.tcf
2D SGS high resolution grid output with manual specification of output resolution EG09_003.tcf
Structures 2D Bridges and Weirs Bridge (2d_fc) Refer to TUFLOW Classic Example Model Archive
Bridge (2d_fcsh) Refer to TUFLOW Classic Example Model Archive
Bridge - horizontal deck (2d_lfcsh) EG10_003.tcf
Bridge - variable deck form geometry (2d_lfcsh) EG10_004.tcf
Bridge - horizontal deck (2d_bg) EG10_005.tcf
2D weir coefficient change (global specification) EG10_006.tcf
2D weir coefficient change (location specific update) EG10_007.tcf
1D Culverts, Bridges, Weirs 1D culverts - Circular and Box type. SX point, line and region 1D/2D examples EG11_001.tcf
1D culverts - Irregular shape (e.g. Arch) EG11_002.tcf
1D culverts - Unidirectional structures (flapgate) (1d_nwk) EG11_003.tcf
1D culverts - ARR2016 blockage matrix (1d_nwk) EG11_~e1~_~e2~_004.tcf
1D M channel - User defined flow matrix (1d_nwk) EG11_005.tcf
1D Q channel - Upstream Depth-Discharge Relationship (1d_nwk) EG11_006.tcf
Bridge (1d_nwk) EG11_007.tcf
Weir (1d_nwk) EG11_008.tcf
1D Operating Structures Pump (1d_nwk) - time trigger EG12_001.tcf
Pump - 1D water level trigger (1d_nwk) EG12_002.tcf
Pump - 2D water level trigger (1d_nwk) EG12_003.tcf
Pump - Depth above structure invert trigger (1d_nwk) EG12_004.tcf
Q flow matrix - Operation based on water level trigger (1d_nwk) EG12_005.tcf
Q flow matrix - Operation based on water level trigger and time delay (1d_nwk) EG12_006.tcf
Sluice gate - Time trigger (simulation time) (1d_nwk) EG12_007.tcf
Sluice gate - Water level trigger(1d_nwk) EG12_008.tcf
Gated spillway - Time trigger (Day) (1d_nwk) EG12_009.tcf
Gated spillway - Water level trigger (1d_nwk) EG12_010.tcf
Coordinated operation (multiple interating structures) - Pump and Gated Spillway EG12_011.tcf
Multiple Domain Model Design 2D/2D Modelling TUFLOW HPC - Quadtree EG13_001.tcf
TUFLOW HPC - Quadtree sample frequency EG13_002.tcf
TUFLOW HPC - Quadtree: Memory efficient pre-processing EG13_003.tcf
TUFLOW Classic - M2D Refer to TUFLOW Classic Example Model Archive
1D Open Channel / 2D Floodplain Modelling 1D river (1d_nwk), 2D floodplain EG14_001.tcf
1D Pipe Network / 2D Floodplain Modelling 1D pipe network (1d_nwk), 2D floodplain, 2d sa rf inflow (mm) to 1D pits EG15_000.tcf
1D pipe network (1d_nwk), 2D floodplain, 2d sa inflow (m^3/s)to 1D pits EG15_001.tcf
1D pipe network (1d_nwk), 2D floodplain, 2d rf direct rainfall EG15_002.tcf
1D pipe network (1d_nwk), 2D / 2D floodplain quadtree EG15_003.tcf
1D pipe network (1d_nwk), manually specified manholes (1d_mh), 2D floodplain EG15_004.tcf
1D pipe network (1d_nwk), non-default (fixed) manhole loss method, 2D floodplain EG15_005.tcf
1D pipe network (1d_nwk), localised manually specified manhole losses, 2D floodplain EG15_006.tcf
1D virtual pipes, 2D floodplain EG15_007.tcf
1D virtual pipes connected to 1D pipe network (trunk drainage line), 2D floodplain EG15_008.tcf
Bulk Simulation Management Scenario / Event Management Scenario (single) EG16_~s1~_001.tcf
Scenario (multiple) EG16_~s1~_~s2~_002.tcf
Set Variable EG16_~s1~_~s2~_003.tcf
Event (single) EG16_~e1~_004.tcf
Event (multiple) EG16_~e1~_~e2~_005.tcf
Scenario (multiple), Event (multiple), Set Variable EG16_~s1~_~s2~_~e1~_~e2~_006.tcf
Other Advection Dispersion Advection Dispersion EG17_001.tcf

Archive Dataset

Historic example model datasets can be accessed via the following link: TUFLOW Classic Example Model Archive.


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