PyLag

PyLag is an offline particle tracking model. The model expects as inputs time independent and/or dependent variables that describe the state of a given fluid. These may be measured quantities or the predictions of an analytical or numerical model. Using these, the model computes Lagrangian trajectories for particles released into the fluid at a particular point in time and space. The model is primarily aimed at marine applications, but in principle could be extended for use in other contexts too; for example, in studies of atmospheric dispersion.

PyLag was created with the aim to make available a particle tracking model that is a) fast to run, b) easy to use, c) extensible and d) flexible. The model is written in a mixture of Python and Cython,

How to cite

Uncles, R. J., Clark, J. R., Bedington, M., Torres, R. 2020. “On sediment dispersal in the Whitsand Bay Marine Conservation Zone: Neighbor to a closed dredge-spoil disposal site” in Marine Protected Areas: Evidence, Policy and Practise, ed Robert Clark and John Humphreys (Elsevier Inc.).

Contents

• Installation
  • Installation using Conda
  • Building the docs
  • Building from source
  • Alternative installation methods
• Examples
  • Lateral advection
  • Lateral advection and diffusion
  • Vertical mixing with analytic inputs
  • Vertical mixing with numeric inputs
  • FVCOM - Forward tracking
  • FVCOM - Backward tracking
  • Local Arakawa A-grid - Forward tracking
  • Global Arakawa A-grid - Forward tracking
  • ROMS - Forward tracking
  • Stoke’s Drift and Leeway
• Documentation
  • Overview
  • Getting started
  • Cookbook
• API Reference
  • pylag package
• Licensing
• Acknowledgements
  • Funding
  • Contributors
  • Dependencies