betes
The Baroclinic Ekman Transport Equation Solver is a numerical code to simulate wind-driven surface boundary layer currents for steady-state 1D problems.
Science Score: 18.0%
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✓CITATION.cff file
Found CITATION.cff file -
○codemeta.json file
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○.zenodo.json file
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○Academic publication links
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○Scientific vocabulary similarity
Low similarity (7.9%) to scientific vocabulary
Keywords
Repository
The Baroclinic Ekman Transport Equation Solver is a numerical code to simulate wind-driven surface boundary layer currents for steady-state 1D problems.
Basic Info
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Topics
Metadata Files
README.md
Introduction
BETES (or Baroclinic Ekman Transport Equation Solver) is a wind-driven ocean currents simulator in a surface boundary layer. The BETES code computes a steady-state Boussinesq flow with a small Rossby number in a water finite depth column. Coriolis force and Barothopic & Baroclinic pressure gradients are balanced with vertical diffusion momentum. Ocean stratification is considered by a family of shapes for the eddy viscosity profile with a two-layer formulation, and the horizontal density gradient is known and vary in depth.
Getting started
Several scripts and documents are provided to learn to work with BETES. In folder src we find the Ekman_model.m archive which is the main code of BETES.
On the other hand adjustpdfpage.m and profile_Kz.m are functions to print the plots in pdf and provide, for the main code, the eddy turbulent viscosity, respectively.
The archive datos_GoC_medios.mat contains experimental results taken from Mazagón (Huelva, Spain).
In folder doc we find a pdf to describe roughly the numerical scheme used for BETES.
Programming language and installation
You need MATLAB (version R2020b or later) to run BETES.
List of Contributors
The list of the people who contributed to BETES are the following: - Victor Javier Llorente Lázaro (Technical University of Madrid) - Manuel Diez Minguito (University of Granada) - Enrique Manuel Padilla de la Torre (University of Granada)
Owner
- Name: GRANADA
- Login: GRANADA-gdfa
- Kind: organization
- Repositories: 1
- Profile: https://github.com/GRANADA-gdfa
Geohydrodynamics Resolution by Advanced, Numerical, and Accurate Differentiation Approaches (GRANADA) is an in-house CFD code library for physical oceanography
Citation (CITATION.bib)
@inproceedings{llorente2022sensitivity,
author = "Llorente, V.J. and Padilla E.M. and Diez-Minguito M.",
title = "High-Order Numerical Sensitivity Tests of Wind-Driven Boundary Layer Currents to Finite Depth, Inhomogeneous Eddy Viscosity, and Baroclinic Pressure Gradient",
booktitle = "Proceedings of the 39th IAHR World Congress",
series = "",
year = "2022",
pages = "xxx--xxx",
publisher = "International Association for Hydro-Environment Engineering and Research (IAHR)"
}
GitHub Events
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Last Year
Committers
Last synced: about 2 years ago
Top Committers
| Name | Commits | |
|---|---|---|
| Víctor Javier Llorente Lázaro | 5****D | 48 |
| Víctor Javier Llorente Lázaro | 5****0 | 2 |
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Last synced: about 2 years ago
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