Here are some of our upcoming events and information about where you can find us next.
Salvatore Iavarone (UCAM) presents “Incompletely Stirred Reactor Network Modeling for the Estimation of Turbulent Non-Premixed Autoignition” at the 28 International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS) which takes place in Naples, Italy on 19-24 June 2022.More info
CoEC partners will chair four sessions at the 18th International Conference on Numerical Combustion, which takes place 8-11 May 2022 in San Diego, California, USA. Daniel Mira (BSC) will chair the session “High-Performance Computing” on 10 May 2022 at…More info
Here are some of our upcoming trainings and information about where you can find us next.
CoEC Combustion Autumn School 2022: Combustion theory with AI/ML applications and interactive analysis
Date: 24-26 October 2022 Venue: Crystal Palace Boutique Hotel, Sofia, Bulgaria Description CoEC Combustion Autumn School 2022: Combustion theory with ML/AI applications and interactive analysis intends to present the fundamentals and current challenges in combustion, as…More info
CoEC is organising a training course titled “Understanding and Predicting Hydrogen Combustion” in collaboration with ERCOFTAC. Date: 30 November 2022 to 2 December 2022 Place: Barcelona Supercomputing Center (Barcelona, Spain) Introduction: Current EU decarbonization strategies are…More info
Date: 03/Nov/2022 Time: 09:00 – 18:15 Place: The course format will be online via Zoom. Target group: Target audience: Under-graduate and graduate students, Ph.D. students, junior researchers (academia and industry) with some knowledge in Computational Fluid Dynamics (CFD). …More info
Place: Online via Webex Date: May 25th, 2022 Time: 14:00 CEST (UTC +2) Description: During the explosion of a premixed gas cloud, the main issue is the pressure increase (the so-called overpressure) which controls the severity of the explosion…More info
Place: CERFACS, Toulouse, France + remote Date: 11-15 Apr 2022 Time: 9am-17:30pm Description: The objective of the training is twofold: firstly, to understand the fundamental principles of Large-Scale Simulations for compressive reactive two-phase flows: numerical methods, boundary conditions, LES approach…More info
Training materials Presentations: Development platform Documentation & Quality Policy Data structures Tutorial – Constant density incompressible flow 4th-order finite-volume schemes Low-Mach Navier-Stokes equations High-performance linear solvers Dynamic mesh adaptation Variable density low-Mach number solver (VDS) Finite-rate chemistry in YALES2 DEM/CFD…More info