Explore the programs and courses offered by Chemical Engineering
Browse Programs Admission InformationThe Master's program in Chemical Engineering combines in-depth theoretical courses, tutorials, and practical work to train specialists in chemical and industrial processes.
Courses cover areas such as advanced thermodynamics, reactor engineering, heat and mass transfer, as well as process modeling and optimization. Tutorials allow students to deepen their understanding by solving case studies and complex problems related to industrial processes.
Practical work includes laboratory experiments, the use of simulation software such as Aspen Plus and Hysys, and studies on new separation technologies, catalysis, and waste valorization. The program aims to develop skills in designing, controlling, and improving chemical systems while addressing environmental and energy challenges.
Unit Operations II (Humidification-Drying-Evaporation-Crystallization)
Adsorption Processes and Membrane Separation
Furnaces and Boilers
Reaction Engineering I: Non-Ideal Reactors and Bioreactors
Unit Operations I (Distillation-Liquid-Liquid Extraction-Mixing)
Porous and Dispersed Media
Heat Exchangers
Applied Thermodynamics
Optimization Methods in Process Engineering
Multiphase Reactors
Advanced topics covered in this master's program include the kinetics and thermodynamics of chemical reactions, process simulation and optimization, as well as advanced control of industrial systems.
Polymer and nanomaterial engineering explore new generations of materials for innovative applications. Industrial biotechnology and waste valorization processes are also studied to address environmental and energy challenges.
Finally, process safety and risk management are key topics aimed at preventing accidents and ensuring production compliance with international standards and regulations.
Access to the program is primarily intended for holders of a bachelor's degree in Process Engineering.
Apply Now