Name: Julien Brillon
Type: User
Company: McGill University
Bio: PhD student working on turbulent flow simulations using high-order numerical methods. Previously worked on modelling nonequilibrium hypersonic flows at Purdue.
Location: Montréal, QC, Canada
Julien Brillon's Projects
Solves the 2D compressible Navier-Stokes equations using finite-difference with a staggered grid arrangement to simulate acoustic waves.
Set of shell scripts used to efficiently manage flow simulations using the PHiLiP code on Compute Canada cluster
Robust solver for the compressible Blasius equations for laminar, high-speed flow, boundary layers over a flat plate.
Discontinuous Galerkin (DG) solver (C++) coupled with a Quasi-Newton line-search algorithm (Python) to optimize the DG mesh.
Decaying homogeneous isotropic turbulence (DHIT) flow setup
Script (with example) to compute the kinetic energy spectrum of periodic turbulent flows.
Conceptual Design Project
Files for mesh generation
MHacks6 hackathon project website
MHacks6 hackathon project
Parallel High-Order Library for PDEs through hp-adaptive Discontinuous Galerkin methods
Post processing functions and scripts for CFD output files from the PHiLiP code.
Python library for quickly plotting with just one line of code.
A synthetic, isotropic turbulence generator for constant density flows that enforces the discrete divergence-free condition.
Solves the fluid structure interaction (FSI) equations of motion for studying the nonlinear dynamics of flexible pipes conveying two-phase flows.