With a long experience in fire engineering and thermal sciences applied to ventilation and energy, we describe predictive models for fire scenarios inside buildings and optimize thermal processes in the chemical industry in order to maximize the production. Related tutorials You may also be interested in: Python introduction Scripting NEURON basics Ball and Stick tutorials: parts 1, 2, 3, 4 Reaction-diffusion.
Our roots as a company are anchored in computational fluid dynamic analysis, which is crucial to analyze the behavior of highway and subway tunnels in normal and emergency conditions, and to design more efficient and reliable ventilation systems. PyroSim is a graphical user interface for the Fire Dynamics Simulator.
We develop predictive models based on the study of numerical codes with advanced procedures to best support safety strategies. PyroSim is the leading software for quickly and accurately working with FDS models. We’ve been managing risk for over a decade.Ĭantene studies how complex systems such as tunnels, buildings, industrial processes and crowds work in order to anticipate their complications. Always evolving, as a young, open-minded team, we’re driven by an inextinguishable passion for discovery. We’re a team of engineers and mathematical analysts who are supported by an academic committee and build models to understand complexity. Cantene was born from a vision: to put on the market the excellence of computational fluid dynamic modelling. PyroSim supports the 'simple chemistry' combustion model in FDS that considers a single fuel species composed of C, H, O, and N that reacts with oxygen in one mixing-controlled step to form H 2 O, C O 2, S o o t, and C O (see Chapter 12 in the FDS User Guide).