pharmaceutical engineering

Explore the programs and courses offered by pharmaceutical engineering

Browse Programs Admission Information

Program Overview

Master’s Program in Pharmaceutical Engineering

The Master’s program in Pharmaceutical Engineering provides immediate access to the job market. To ensure high-quality training, modern teaching methodologies are progressively integrated into the curriculum. Whether in lectures, tutorials, or practical sessions, the focus is placed on:

  • Multimedia tools and techniques to enhance educational content delivery, including PowerPoint presentations via video projectors, supported by printed handouts.
  • Extensive hands-on training, with practical work incorporated into nearly all course units.
  • Student-led assignments, including presentations and mini-projects, which play a critical role in both the learning process and the assessment of competencies.
  • Field visits, designed to reinforce students' theoretical knowledge through real-world industrial exposure.


Teaching Language : Français/Anglais

Curriculum Highlights

Core Courses

Recommended Prerequisite Knowledge

  • Fundamental concepts in general chemistry and organic chemistry, as well as basic physiology.
  • Basic knowledge of biochemistry, biology, mathematics, and statistics.
  • Foundational principles of general chemistry and biochemistry.
  • Thermodynamics and transport phenomena, including heat, mass, and momentum transfer, along with numerical analysis techniques.


Advanced Topics

Master’s Program Objective

The objective of this Master’s program is to train engineers capable of working in pharmaceutical industrial units, including quality control laboratories, production workshops, and research & development (R&D) laboratories.

Graduates will be responsible for:

  • Conducting engineering studies and projects related to the design and scaling of manufacturing facilities involved in pharmaceutical production.
  • Formulating generic drugs and ensuring compliance with industry regulations.
  • Translating laboratory-scale processes (molecular synthesis) to full-scale industrial production.
  • Developing innovative analytical methods to enhance drug quality and manufacturing efficiency.


View Full Curriculum

Admissions Information

Apply Now