https://github.com/miniufo/internalwavebreaking

This is an idealized simulation of internal-wave breaking due to tide-topography interaction based on MITgcm.
https://github.com/miniufo/internalwavebreaking

internal-wave mitgcm mixing simulation

Last synced: 3 months ago
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This is an idealized simulation of internal-wave breaking due to tide-topography interaction based on MITgcm.

• Host: GitHub
• URL: https://github.com/miniufo/internalwavebreaking
• Owner: miniufo
• Created: 2020-11-17T02:21:18.000Z (almost 5 years ago)
• Default Branch: master
• Last Pushed: 2021-11-03T04:08:35.000Z (almost 4 years ago)
• Last Synced: 2024-01-27T20:42:59.463Z (over 1 year ago)
• Topics: internal-wave, mitgcm, mixing, simulation
• Language: Python
• Homepage:
• Size: 94.6 MB
• Stars: 9
• Watchers: 2
• Forks: 4
• Open Issues: 0
• Metadata Files:
  • Readme: README.md

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README

          
# InternalWaveBreaking

![Animation](./Data/panel2.gif)

## 1. Introduction

This is a idealized simulation of internal wave breaking due to tide-topography interaction based on [MITgcm](http://mitgcm.org/).  Left shows the isopycnals, middle is the local available potential energy [APE, ([Roullet and Klein 2009](https://www.cambridge.org/core/journals/journal-of-fluid-mechanics/article/available-potential-energy-diagnosis-in-a-direct-numerical-simulation-of-rotating-stratified-turbulence/906E71577A230B90B48D8CEB442EE873); [Winters and Barkan 2013](https://www.cambridge.org/core/journals/journal-of-fluid-mechanics/article/available-potential-energy-density-for-boussinesq-fluid-flow/563B240B07CEBFDCD68F77A78FBFED16))] and right is the local diapycnal diffusivity.

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