17 Chemical Engineering Courses
Advanced Mathematical Techniques in Chemical Engineering equips students with essential skills in vector spaces, eigenvalue problems, and PDEs for chemical engineering applications....
Biochemical Engineering explores the intersection of biology and engineering, focusing on enzyme kinetics, metabolic pathways, bioreactor design, and microbial interactions for...
Chemical Reaction Engineering focuses on advanced concepts in reaction mechanisms, kinetics, reactor design, and stability for complex chemical systems.
This undergraduate fluid mechanics course covers fundamental concepts and applications in chemical engineering, emphasizing fluid flow analysis and problem-solving techniques.
Explore the fundamental principles of fluid transport processes, focusing on convection and diffusion and their roles in mass, heat, and momentum transfer across various coordinates....
This course provides a comprehensive understanding of momentum transport, fluid mechanics, and related principles essential for advanced studies in engineering and applied sciences....
Explore the intricate world of heterogeneous catalysis, focusing on catalyst structures, preparation, reactivity, and industrial processes for cleaner, efficient chemical product...
This course explores the science and techniques of patterning thin polymer films, focusing on applications from super hydrophobicity to microfluidics.
Introduction to Chemical Engineering provides a comprehensive overview of chemical engineering principles and applications, including important processes, case studies, and the...
This advanced course delves into mass transfer processes, covering fundamental concepts, separation methods, and equipment design, enhancing both theoretical understanding and...
Mass Transfer Operations I explores essential mass transfer principles and their applications in engineering, covering diffusion, absorption, and distillation through theoretical...
Explore micro-scale transport processes, including momentum, energy, diffusion, and practical applications in various engineering fields through advanced topics and hands-on experiences....
Chemical Engineering is a dynamic and vital field that integrates physical sciences, life sciences, and mathematics to solve complex problems related to the production and use of chemicals, materials, and energy. This discipline plays a crucial role in the development of new processes and products that enhance our quality of life and contribute to sustainability.
Students pursuing Chemical Engineering will delve into a variety of subjects, including:
The curriculum combines theoretical knowledge with practical applications, providing students with the skills necessary to tackle real-world challenges. Through hands-on laboratory experiments and design projects, students learn to:
Graduates of Chemical Engineering programs are well-prepared for diverse career opportunities in various industries, including:
With the growing emphasis on sustainability and green technologies, Chemical Engineers are increasingly called upon to innovate and improve processes that minimize waste and energy consumption. This commitment to sustainable development ensures that graduates are not only equipped to meet current industry demands but also to lead the way in creating a more sustainable future.
In summary, a career in Chemical Engineering is not only intellectually stimulating but also immensely rewarding. By choosing this path, students will have the opportunity to make significant contributions to society through the advancement of technology and the promotion of sustainable practices.