17 Chemical Engineering Courses
Chemical Reaction Engineering focuses on advanced reaction mechanisms, kinetics, and reactor design to equip students for complex chemical systems analysis and design.
Explore advanced mathematical techniques essential for chemical engineering, including vector spaces, eigenvalue problems, and partial differential equations for real-world applications....
Explore systematic plantwide control design in chemical processes, focusing on control structure selection, disturbance rejection, and maximizing profitability through case studies...
This advanced course on mass transfer delves into principles, applications, and separation processes, equipping students with essential problem-solving skills in various mass transfer...
Explore innovative separation processes through membrane techniques, gas separations, and advanced extraction methods for various applications in chemistry and engineering.
Mass Transfer Operations I explores fundamental mass transfer principles and their applications in engineering, covering diffusion, absorption, distillation, and related equipment....
Explore the fundamentals of process control and instrumentation, focusing on mathematical modeling, feedback control schemes, and measurement systems used across various industries....
Biochemical Engineering explores the intersection of biology and engineering, detailing enzyme kinetics, microbial growth, and bioreactor design for biochemical product development....
Explore the essential principles of convection and diffusion in fluids, emphasizing mass, heat, and momentum transport across various coordinate systems and conditions.
Explore the essential role of heterogeneous catalysis in industrial processes, focusing on catalyst design, characterization, and the kinetics of catalytic reactions for cleaner...
This course equips students with essential knowledge of modern instrumental methods for chemical analysis, covering theoretical and practical aspects across various techniques....
This course explores the science and techniques of patterning thin polymer films, focusing on applications in various engineering fields and advanced lithography methods.
Chemical Engineering is a dynamic and essential field that combines principles of chemistry, physics, mathematics, and biology to develop processes and products that improve our everyday lives. From the design of chemical reactors to the development of sustainable energy solutions, chemical engineers play a pivotal role in addressing some of the world's most pressing challenges.
In this subject area, students will explore a variety of topics, including:
The courses offered under Chemical Engineering are designed to provide a comprehensive understanding of these topics, with an emphasis on practical applications and real-world problem-solving. Students will engage in hands-on laboratory work, simulations, and case studies to deepen their knowledge and skills.
Key learning outcomes for students in this subject include:
The field of Chemical Engineering is not only vital for traditional industries such as petrochemicals and pharmaceuticals but also plays a crucial role in emerging sectors like renewable energy, biotechnology, and nanotechnology. As the demand for innovative solutions continues to grow, so does the need for skilled chemical engineers who can lead the charge in research and development.
Whether you are just starting your academic journey or looking to advance your career, the courses in Chemical Engineering provide a solid foundation for a rewarding and impactful profession. Join us in exploring this exciting field and discover how you can contribute to a sustainable future!