Diablo DNS solver with Edge Tracking

Jorge Sandoval; Tom Eaves

Diablo DNS solver with Edge Tracking

Jorge Sandoval (Lead / Corresponding author), Tom Eaves

Civil Engineering

Research output: Non-textual form › Software

Abstract

Diablo is an open-source CFD solver, originally developed by John Taylor, Tom Bewley and others at UCSD. It solves the incompressible, Boussinesq Navier-Stokes equations in several simple geometries (extract from https://www.damtp.cam.ac.uk/user/jrt51/ and https://github.com/johnryantaylor/DIABLO).
This is a version adapted by Dr Tom Eaves from the University of Dundee, which is set up to solve the unsteady flow in a Stokes oscillating boundary layer. The code was adapted by Jorge Sandoval, PDRA at the University of Dundee, to incorporate an edge-tracking algorithm based on the Kinetic Energy associated with a perturbation velocity field from the exact laminar solution.

Original language	English
Publisher	GitHub
Media of output	Other
Publication status	Published - 24 Apr 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

https://github.com/jsandoval001/Diablo_edge_tracking.gitLicence: CC BY

Cite this

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title = "Diablo DNS solver with Edge Tracking",

abstract = "Diablo is an open-source CFD solver, originally developed by John Taylor, Tom Bewley and others at UCSD. It solves the incompressible, Boussinesq Navier-Stokes equations in several simple geometries (extract from https://www.damtp.cam.ac.uk/user/jrt51/ and https://github.com/johnryantaylor/DIABLO).This is a version adapted by Dr Tom Eaves from the University of Dundee, which is set up to solve the unsteady flow in a Stokes oscillating boundary layer. The code was adapted by Jorge Sandoval, PDRA at the University of Dundee, to incorporate an edge-tracking algorithm based on the Kinetic Energy associated with a perturbation velocity field from the exact laminar solution.",

author = "Jorge Sandoval and Tom Eaves",

year = "2025",

month = apr,

day = "24",

language = "English",

publisher = "GitHub",

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T1 - Diablo DNS solver with Edge Tracking

AU - Sandoval, Jorge

AU - Eaves, Tom

PY - 2025/4/24

Y1 - 2025/4/24

N2 - Diablo is an open-source CFD solver, originally developed by John Taylor, Tom Bewley and others at UCSD. It solves the incompressible, Boussinesq Navier-Stokes equations in several simple geometries (extract from https://www.damtp.cam.ac.uk/user/jrt51/ and https://github.com/johnryantaylor/DIABLO).This is a version adapted by Dr Tom Eaves from the University of Dundee, which is set up to solve the unsteady flow in a Stokes oscillating boundary layer. The code was adapted by Jorge Sandoval, PDRA at the University of Dundee, to incorporate an edge-tracking algorithm based on the Kinetic Energy associated with a perturbation velocity field from the exact laminar solution.

AB - Diablo is an open-source CFD solver, originally developed by John Taylor, Tom Bewley and others at UCSD. It solves the incompressible, Boussinesq Navier-Stokes equations in several simple geometries (extract from https://www.damtp.cam.ac.uk/user/jrt51/ and https://github.com/johnryantaylor/DIABLO).This is a version adapted by Dr Tom Eaves from the University of Dundee, which is set up to solve the unsteady flow in a Stokes oscillating boundary layer. The code was adapted by Jorge Sandoval, PDRA at the University of Dundee, to incorporate an edge-tracking algorithm based on the Kinetic Energy associated with a perturbation velocity field from the exact laminar solution.

UR - https://github.com/jsandoval001/Diablo_edge_tracking.git

M3 - Software

PB - GitHub

ER -

Diablo DNS solver with Edge Tracking

Abstract

UN SDGs

Access to Document

Other files and links

Fingerprint

Saving Energy Via Drag Reduction: A Mathematical Description of Oscillatory Flows

Accompanying data for the article: Transition to Turbulence in the Stokes Boundary Layer: Edge States and the Periodic Self-Sustaining Process

Cite this

Diablo DNS solver with Edge Tracking

Abstract

UN SDGs

Access to Document

Other files and links

Fingerprint

Projects

Saving Energy Via Drag Reduction: A Mathematical Description of Oscillatory Flows

Datasets

Accompanying data for the article: Transition to Turbulence in the Stokes Boundary Layer: Edge States and the Periodic Self-Sustaining Process

Cite this