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Contributors Forks Stargazers Issues MIT License


WAMSI Westport Cockburn Sound Water Quality Model

This repository houses the hydrodynamic-biogeochemical model for Cockburn Sound, a coastal embayment located near Perth, Western Australia.
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Table of Contents
  1. About The Project
  2. Getting Started
  3. Usage
  4. Roadmap
  5. Contributing
  6. License
  7. Contact
  8. Acknowledgments

About The Project


In 2022, the Western Australian Marine Science Insitution and Wesport commisioned development of an independent hydrodynamic-biogeochemical model for Cockburn Sound, which is located on the coast of Perth, Western Australia.

The model uses the TUFLOW-FV 3D finite volume hydrodynamic model, and the AED water quality model.

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Built With


TUFLOW-FV AED


Getting Started


This repository contains model files (except the bc_repo) that are version-controlled can be run locally on Windows or Linux. The bc_repo contains boundary conditions files that the sizes are too large to be stored at Github, therefore they are stored on Pawsey WAMSI project folder and can be accessed by direct download or a fetch method (see below). To get a local copy up and running follow these steps.

Prerequisites

Running the model contained herein requires users to have an active TUFLOW-FV binary and license with the AED pre-compiled plugin.

  • Download and install the TUFLOW-FV model and license server from WBM BMT.

  • Download and install the compatible AED model plugin (FV-AED) from the UWA-AED website.

Cloning and executing the model

  1. Clone the current csiem_model_tfvaed_1.0 repo

    Linux: git clone https://github.com/AquaticEcoDynamics/csiem_model_tfvaed_1.0.git
    Windows: use Github Destop to clone or download ZIP at the Github website
  2. Clone the complete model files including bc_repo folder. For Linux users, copy the fetch_csiem.sh shell file from the Github csiem_model_tools repository. Then fetch the bc_repo as:

    ./fetch_csiem.sh 1.0

    The above fetch command will download all the model files including the bc_repo;

  3. Go to the main model run directory, and execute model as:

    {tfv_aed binary} {csiem model tfvaed 1.0 main configuration}.fvc

Folder structure and file naming conventions

  1. Folder structure: model files are organized in the following catogories/folders:
Folders Content
bc_repo repository for boundary condition files
gis_repo repository for GIS files required by the model simulations
includes model configuration files for being included in simulations
model_runs main model configuration files
outputs place holder for model output storage
  1. File naming convention: model files are named using the following conventions:
  • model_runs
Sub-type Conventions comments
WQ (water quality) csiem_{model generation ID}_{mesh option}_{model period}_WQ.fvc Main configuration file for coupled TFV-AED model, e.g. csiem_v1_B009_20130101_20131231_WQ.fvc
HD (hydrodynamics) csiem_{model generation ID}_{mesh  option}_{model  period}_HD.fvc Main configuration file for TFV hydrodynamic model only, e.g. csiem_v1_B009_20130101_20131231_HD.fvc
ST (sediment transport) csiem_{model generation ID}_{mesh  option}_{model  period}_SED.fvc Main configuration file for TFV-ST model, e.g. csiem_v1_B009_20130101_20131231_ST.fvc.
Note: the TFV-ST model was originally set by BMT and to be updated with corresponding file paths/names
  • includes
Sub-type Conventions comments
bc (boundary conditions) {boundary type}_{data source}_{data period}.fvc e.g. met_BARRA_perth_20130101_20131231.fvc
ic (initial condition) initial_conditions_{model version}.fvc e.g. initial_conditions_wq.fvc
domain domain_config_{mesh option}_{model type}.fvc e.g. domain_config_csiem_mesh_B.fvc
turbulence turbulence.fvc Include configuration for turbulence parameters
wq (water quality) AED model configuration files Include configuration for AED water quality module
output output_{output category}.fvc Configuration for model outputs, e.g. output_wq.fvc
roughness roughness_material_{version NO}.fvc Configuration for benthic roughness settings, e.g. roughness_wq_Material_011.fvc
  • bc_repo
Sub-type Conventions comments
1_ocean (ocean boundary) - NetCDF: {data source}_{UTC zone}_{data period}.nc
- CSV: ocean_bgc_{source}_{data period}.csv
e.g. ROMS_UTC+8_20130101_20140101_FILLED.nc
ocean_bgc_IMOS_20220101_20221231.csv
2_weather (weather condition) {data source}_{domain}_{UTC zone}_{data period}.nc e.g. WRF_d02_UTC+0_20220101_20230101.nc
3_waves (waves inputs) {data source}_{domain}_{UTC zone}_{data period}.nc e.g. WWM_Agrid_UTC+0_20150101_20151231.nc
4_sce (Swan-Canning Estuary) {location}_{BC type}_{ data period}_{model type}.csv e.g. NAR_Inflow_20100101_20230101_wq.csv
5_phe (Peel-Harvey Estuary) N/A (to be updated)
6_gw (Groundwater inputs) SGD_{zone id}_{data period}.csv e.g. SGD_zone1_1_20130101_20131231.csv
7_discharges (industrial discharge) {data source}_{data period}.nc e.g. BP_20130101_20140101_wq.csv
8_intakes (industrial intakes) {data source}_{data period}.nc e.g. PSDP1_20130101_20140101_wq.csv
9_operations (Cockburn Sound operations) N/A (to be updated)
  • gis_repo
Sub-type Conventions comments
1_domain (GIS files for model domain) csiem_mesh_{mesh option}_{version ID}_{resolution} e.g. csiem_mesh_B009_opt.2dm
2_benthic (GIS files for benthic conditions) csiem_{benthic type}_{version ID} e.g. Cockburn_Sound_Material_011.shp
3_output (GIS files for output definition) extraction_point.csv
4_gw (GIS files for defining groundwater inputs) groundwater_zones_{version NO} e.g. groundwater_zones_v2.shp

Analysis

Input files and model output files are able to be processed using the csiem-marvl repository that includes the supporting scripts and site data. Please contact the developers for further information.

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Contributing

Contributions from the user and developer community are welcome and greatly appreciated!.

If you have a suggestion that would make this better, please fork the repo and create a pull request. You can also simply open an issue with the tag "enhancement". Don't forget to give the project a star! Thanks again!

  1. Fork the Project
  2. Create your Feature Branch (git checkout -b feature/AmazingFeature)
  3. Commit your Changes (git commit -m 'Add some AmazingFeature')
  4. Push to the Branch (git push origin feature/AmazingFeature)
  5. Open a Pull Request

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License

Distributed under the --- License. See LICENSE.txt for more information.

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Contact

Matt Hipsey: @matthipsey - matt.hipsey@uwa.edu.au

Project Link: csiem online manual

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Acknowledgments

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