Chemical Engineering
The Chemical Engineering Bachelor of Science program provides a rigorous academic foundation for understanding how chemical principles, material transformations, and engineering design shape modern technological and industrial systems. Students develop a strong grasp of core scientific concepts while learning to approach real-world challenges through analytical reasoning, process optimization, and experimental methods. The curriculum emphasizes the connection between chemical behavior and engineered applications, enabling learners to evaluate complex processes across energy, materials, biotechnology, and environmental systems. Through this structured approach, students gain the ability to integrate theory with practice and interpret how chemical engineering supports sustainable and efficient solutions across multiple sectors.
As students progress through the program, they engage in laboratory experiences, research initiatives, and design-oriented coursework that deepen their technical capabilities and conceptual understanding. These academic elements help students build confidence in applying thermodynamic principles, transport phenomena, and reaction engineering to both industrial and scientific challenges. The program encourages interdisciplinary thinking while offering access to advanced facilities and collaborative learning environments. Graduates leave with a comprehensive skill set that prepares them for impactful roles in engineering fields, research institutions, or further study in areas where chemical knowledge and innovative problem-solving are essential.
Key information
Key Facts
- Program Title: Chemical Engineering
- Degree Type: Bachelor of Science
- Duration: 4 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 06 January 2026
- Location: Massachusetts Institute of Technology (MIT), United States
- Field of Study: Chemical Engineering
- Language of Instruction: English
Program Structure
Year 1 – Foundations in Chemistry and Engineering
• General Chemistry and Laboratory
• Introduction to Chemical Engineering Concepts
• Calculus and Mathematical Foundations
• Principles of Physics for Engineers
Year 2 – Core Chemical Engineering Principles
• Thermodynamics for Chemical Engineers
• Fluid Mechanics and Transport Fundamentals
• Materials and Molecular Engineering
• Chemical Engineering Computation
Year 3 – Advanced Processes and Applications
• Heat and Mass Transfer
• Chemical Reaction Engineering
• Process Control and Systems Design
• Electives in Materials, Energy, or Biotechnology
Year 4 – Integration, Design & Capstone Experience
• Chemical Process Design
• Advanced Topics in Chemical Engineering
• Capstone Research or Design Project
• Specialized Electives in Applied Chemical Systems
Career Opportunities
Graduates of this program pursue careers across a wide range of industries that rely on chemical process understanding, materials innovation, and engineering design. Many work in energy systems, biotechnology, pharmaceuticals, manufacturing, or environmental engineering, applying their expertise to improve production efficiency, develop new materials, or optimize large-scale processes. Others contribute to research institutions or continue into graduate-level study in chemical engineering, materials science, or related technical fields where strong analytical and scientific foundations are essential. The interdisciplinary nature of the program equips students with adaptable skills valued in sectors that depend on precise modeling, experimentation, and process development.
Why Choose This Program
This program appeals to students who want to explore how chemical principles support technological innovation and industrial advancement. The curriculum prioritizes scientific depth, engineering design, and hands-on experimentation, allowing learners to understand how chemical transformations shape practical applications in modern society. Students benefit from access to research opportunities, laboratory environments, and faculty expertise that reinforce their conceptual knowledge while strengthening professional readiness. By combining foundational science with engineering practice, the program offers a pathway for those seeking to contribute to sustainable technologies, advanced materials, and innovative chemical processes.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 617-253-1000
Email: admissions@mit.edu
Address: University of MIT, 77 Massachusetts Avenue, Cambridge, MA 02139, USA
