Chemical Engineering

Program Overview

Chemical engineering is the application of chemistry to industrial processes. Its primary objective is to determine the progress and operating conditions required for the effective management of industrial chemical reactions throughout their course. Laboratory methods, while essential for research, are often not directly suited for large-scale industrial production, particularly from an economic perspective. Therefore, students are expected to apply their expertise to adapt these processes to industrial constraints.

This Master’s program also aims to equip students with non-chemical engineering backgrounds with the fundamental principles and technical knowledge necessary to address industry-specific challenges in chemical engineering.

Teaching Language : Français/Anglais

Curriculum Highlights

Core Courses

To achieve these objectives, the "Chemical Engineering - Process Engineering" program includes:

Core theoretical and practical training in process engineering, which forms the foundation of the curriculum. This includes fluid mechanics, thermodynamics, heat transfer, unit operations (distillation, extraction, etc.), chemical reactors, quality control, safety, environmental management, automation, process regulation, and industrial process operation. The program also integrates graphical representation (industrial drawing, schematics) and the technological aspects of industrial equipment.
General education in applied mathematics, physics, and chemistry, providing students with the fundamental knowledge required to understand the scientific principles governing chemical and process engineering.
Training in general education and technical English, with a focus on scientific communication and professional expression, equipping students with the necessary skills to articulate and present technical concepts effectively.
Supervised projects and an industrial internship, which reinforce theoretical knowledge through practical application in real-world industrial settings, enhancing students' problem-solving and professional development.

Advanced Topics

The Chemical Engineering program introduces students to research and higher education activities in the field of chemical engineering.

The curriculum is designed to ensure that by the end of the two-year Master’s program, students develop a high level of autonomy through a progressively self-directed learning approach, achieved by:

Integrating engineering sciences into industrial production processes to achieve optimal performance through continuous monitoring of key parameters such as temperature, pressure, concentration, and flow rate.
Acquiring fundamental knowledge essential for addressing industrial production challenges, ensuring process safety and environmental compliance.
Developing specialized expertise in Good Manufacturing Practices (GMP), process validation, and industrial chemical engineering regulations.
Applying advanced techniques, methodologies, and concepts that extend beyond chemical engineering to related disciplines such as biotechnology.

View Full Curriculum

Chemical Engineering

Program Overview

Curriculum Highlights

Core Courses

Advanced Topics

Admissions Information