What you will learn

This short course will allow participants to:

• Develop solutions to problems complex and multi-physics of process engineering and implement them with Modelica, a programming language object oriented

Summary

Composed of 2 modules, this course aims _ to introduce the principles of modelling system and modelling tools available . The language Modelica will more specifically discussed with applications on the simulation of process systems industrial .

Modelica is designed to describe the dynamics of hybrid systems, i.e. systems mixing continuous behaviours ( modelled by equations ordinary differentials ) and discrete behaviours ( modelled by trigger conditions ). Modelica has many applications in the industry, for the simulation of cyber-physical systems ( physical systems controlled / driven by computers or calculators ).

The description

Through the course '' Tools for the modeling of complex systems '', in process engineering , Modelica makes it possible to model different physico-chemical phenomena, such as thermodynamics , kinetics , transfers of matter, heat , and momentum etc. , but also the sensors , the different actuators ( valves , pumps , heating , etc.) and their control systems . _

Key Benefits

Concretely, following this course participants will be able to :

• Develop solutions to problems complex and multi-physics of process engineering and implement them with Modelica , a programming language object oriented

Who Should Attend 

This course is for process engineers, engineers in industrial automation and engineers in mathematical modelling .

Participants must have the prerequisites following:

• Basics of programming and computer science
• Basic concepts in chemistry and thermodynamics .