Difference between revisions of "TUFLOW CATCH Demo Models"
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* Are able to be run without a licence for TUFLOW CATCH, TUFLOW HPC or TUFLOW FV | * Are able to be run without a licence for TUFLOW CATCH, TUFLOW HPC or TUFLOW FV | ||
Descriptions of the model and demonstration simulations follow. | Descriptions of the model and demonstration simulations follow. | ||
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= Data Documentation and Download = | = Data Documentation and Download = | ||
| − | The demonstration models are fully documented in the <u>[https://docs.tuflow.com/catch/ | + | The demonstration models are fully documented in the <u>[https://docs.tuflow.com/catch/latest TUFLOW CATCH manual]</u>. The associated model files are available via the <u>[https://downloads.tuflow.com/TUFLOW%20CATCH/Example_Models/TUFLOWCATCH_Demonstration_Models.zip TUFLOW Downloads]</u>.<br> |
The demonstration model suite includes the following simulations. | The demonstration model suite includes the following simulations. | ||
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| + | = Demonstration Project Area Domain = | ||
| + | The demonstration model is located in New Zealand. It uses publicly available base data sets where available (with some of these being modified on occasion), and synthetic data otherwise. | ||
| + | |||
| + | The model domain is simulated under TUFLOW CATCH, which subsequently controls TUFLOW HPC and TUFLOW FV, for a period of 1 week from 01/01/2021 to 07/01/2021. | ||
| + | |||
| + | The catchment (represented by TUFLOW HPC) has: | ||
| + | * An area of approximately 55 square kilometres. | ||
| + | * A relief of approximately 20m. | ||
| + | * Three (synthetic) land uses: urban, forest and agriculture. | ||
| + | The general arrangement of the catchment is presented below. | ||
| + | |||
| + | [[File: CATCH_Demo_HPC.png| 400px]]<br> | ||
| + | |||
| + | The receiving waterway, which is a hypothetical lake (represented by TUFLOW FV) has: | ||
| + | * An area of approximately 1 square kilometre | ||
| + | * A maximum depth of approximately 12m | ||
| + | * Two major riverine tributaries | ||
| + | * Two local wastewater treatment plant discharges | ||
| + | * One offtake | ||
| + | * An overflow outlet weir | ||
| + | The general arrangement of the receiving waterway is presented below. | ||
| + | |||
| + | [[File: CATCH_Demo_FV.png| 400px]]<br> | ||
| + | |||
| + | = Numerical Models = | ||
| + | The TUFLOW HPC catchment runoff / pollutant export and TUFLOW FV receiving water models are described following. | ||
| + | |||
| + | == TUFLOW HPC == | ||
| + | The TUFLOW HPC model has the following general configuration: | ||
| + | * A 2D cell size of 50m, SGS turned on with a sample target distance of 1m | ||
| + | * A synthetic rainfall record applied, with a maximum daily rainfall of approximately 60mm | ||
| + | * Three materials, with one for each land use above | ||
| + | * One soil layer with constant thickness of 0.6m | ||
| + | * All simulations use GPU Module acceleration. | ||
| + | |||
| + | The pollutant export model in TUFLOW HPC has various forms depending on the TUFLOW CATCH configuration being simulated. Across these various forms, both shear1 and washoff1 methods are deployed, and other pollutant export parameters are set using the guidance provided in the <u>[https://docs.tuflow.com/catch/manual/2024.2/ TUFLOW CATCH manual]</u>. In all cases where applicable: | ||
| + | * Salinity, dissolved oxygen, silicate, adsorbed phosphorus and phytoplankton are set to constant concentrations | ||
| + | * Sediment and particulate organics are prohibited from infiltrating to groundwater | ||
| + | * Water temperature is provided as a timeseries | ||
| + | * Sediment uses the shear1 method, and all other pollutants use the washoff1 method | ||
| + | |||
| + | == TUFLOW FV == | ||
| + | The TUFLOW FV model has the following general configuration: | ||
| + | * Simulation of hydrodynamics, including density (salinity and temperature) driven processes | ||
| + | * Full atmospheric heat exchange simulation | ||
| + | * Sediment transport simulation, with one sediment fraction | ||
| + | * Water quality simulation, using the Organics simulation class | ||
| + | * 3D simulation with 8 z layers and 6 sigma layers | ||
| + | * Three bed materials to define sediment transport and water quality processes | ||
| + | * All simulations use GPU Module acceleration. | ||
Latest revision as of 16:16, 6 November 2024
Introduction
A demonstration model and small suite of simulations have been developed to support TUFLOW CATCH users. These simulations:
- Can be used as templates for construction of other TUFLOW CATCH simulations
- Encompass the supported TUFLOW CATCH configurations, and
- Are able to be run without a licence for TUFLOW CATCH, TUFLOW HPC or TUFLOW FV
Descriptions of the model and demonstration simulations follow.
Data Documentation and Download
The demonstration models are fully documented in the TUFLOW CATCH manual. The associated model files are available via the TUFLOW Downloads.
The demonstration model suite includes the following simulations.
| TUFLOW CATCH Demonstration Model Catalogue | ||
|---|---|---|
| Numerical Model | Simulation Name | Description |
| TUFLOW HPC only | Demonstration_001.tcc | Catchment hydraulic model calibration (without receiving model) |
| TUFLOW HPC only | Demonstration_002.tcc | Catchment hydraulic calibration: Pollutant export configuration with constant salinity and temperature timeseries |
| TUFLOW HPC only | Demonstration_003.tcc | Catchment pollutant calibration: Pollutant export configuration with user pollutant/s (non-TUFLOW FV pollutants) |
| TUFLOW HPC only | Demonstration_004.tcc | Catchment pollutant calibration: Pollutant export configuration with TUFLOW FV pollutants |
| TUFLOW HPC and FV | Demonstration_005.tcc | Linked catchment and receiving model: Integrated configuration with all TUFLOW FV pollutants |
| TUFLOW HPC and FV | Demonstration_006.tcc | Receiving model calibration: TUFLOW FV simulation with preserved inflows |
| TUFLOW FV | Demonstration_007.tcc | Linked catchment and receiving model: Hydrology configuration with salinity and temperature |
Demonstration Project Area Domain
The demonstration model is located in New Zealand. It uses publicly available base data sets where available (with some of these being modified on occasion), and synthetic data otherwise.
The model domain is simulated under TUFLOW CATCH, which subsequently controls TUFLOW HPC and TUFLOW FV, for a period of 1 week from 01/01/2021 to 07/01/2021.
The catchment (represented by TUFLOW HPC) has:
- An area of approximately 55 square kilometres.
- A relief of approximately 20m.
- Three (synthetic) land uses: urban, forest and agriculture.
The general arrangement of the catchment is presented below.
The receiving waterway, which is a hypothetical lake (represented by TUFLOW FV) has:
- An area of approximately 1 square kilometre
- A maximum depth of approximately 12m
- Two major riverine tributaries
- Two local wastewater treatment plant discharges
- One offtake
- An overflow outlet weir
The general arrangement of the receiving waterway is presented below.
Numerical Models
The TUFLOW HPC catchment runoff / pollutant export and TUFLOW FV receiving water models are described following.
TUFLOW HPC
The TUFLOW HPC model has the following general configuration:
- A 2D cell size of 50m, SGS turned on with a sample target distance of 1m
- A synthetic rainfall record applied, with a maximum daily rainfall of approximately 60mm
- Three materials, with one for each land use above
- One soil layer with constant thickness of 0.6m
- All simulations use GPU Module acceleration.
The pollutant export model in TUFLOW HPC has various forms depending on the TUFLOW CATCH configuration being simulated. Across these various forms, both shear1 and washoff1 methods are deployed, and other pollutant export parameters are set using the guidance provided in the TUFLOW CATCH manual. In all cases where applicable:
- Salinity, dissolved oxygen, silicate, adsorbed phosphorus and phytoplankton are set to constant concentrations
- Sediment and particulate organics are prohibited from infiltrating to groundwater
- Water temperature is provided as a timeseries
- Sediment uses the shear1 method, and all other pollutants use the washoff1 method
TUFLOW FV
The TUFLOW FV model has the following general configuration:
- Simulation of hydrodynamics, including density (salinity and temperature) driven processes
- Full atmospheric heat exchange simulation
- Sediment transport simulation, with one sediment fraction
- Water quality simulation, using the Organics simulation class
- 3D simulation with 8 z layers and 6 sigma layers
- Three bed materials to define sediment transport and water quality processes
- All simulations use GPU Module acceleration.
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