Chemical Engineering
The Chemical Engineering Master of Engineering program at Cornell University offers an intensive and professionally focused learning experience for students who want to apply chemical engineering principles to modern technological and industrial challenges. The curriculum integrates core topics such as thermodynamics, transport processes, reaction engineering, and process modeling, allowing learners to explore how chemical systems behave under different environmental and operational conditions. With a strong emphasis on process engineering, students develop analytical skills that support the design, control, and optimization of chemical processes used in sectors such as energy, materials, biotechnology, and advanced manufacturing. This structure provides a solid foundation for connecting scientific understanding with engineering application.
Throughout this one year program, students work with faculty involved in research on sustainable energy, polymers, biochemical engineering, catalysis, and computational modeling. The academic experience combines coursework with hands on project work, giving learners opportunities to build competence in chemical systems, simulation methods, and laboratory analysis. Through exposure to interdisciplinary approaches and engineering tools, students deepen their technical abilities while learning to evaluate engineering problems from both scientific and practical perspectives. The program’s applied orientation prepares graduates to contribute effectively to industries seeking innovation through chemical engineering expertise.
Key information
Key Facts
- Program Title: Chemical Engineering
- Degree Type: Master of Engineering
- Duration: 1 year
- Mode of Study: Full-time, On Campus
- Application Deadline: 23 May 2026
- Location: Cornell University, United States
- Field of Study: Chemical Engineering
- Language of Instruction: English
Program Structure
Semester 1
• Chemical Engineering Analysis
• Thermodynamics and Phase Behavior
• Transport Phenomena
• Elective in Materials, Energy, or Biotechnology
Semester 2
• Chemical Reaction Engineering
• Process Simulation and Design
• Chemical Engineering Design Project
• Elective in Environmental, Polymer, or Computational Engineering
Career Opportunities
Graduates of this program pursue roles across chemical, energy, biotechnology, and advanced materials industries, frequently joining chemical process teams, biotechnology companies, energy and materials firms, and research and development units. With strong preparation in analysis, modeling, and chemical process design, they contribute to improving industrial operations, developing new materials and products, enhancing sustainability strategies, and optimizing large scale chemical systems. Their interdisciplinary training enables them to support engineering teams, analyze performance data, design safer and more efficient processes, and participate in innovation driven projects across technologically intensive sectors.
Why Choose This Program
This program is an excellent choice for students seeking to connect chemical science with engineering practice, offering opportunities to develop advanced analytical skills and strong engineering insight supported by Cornell’s research oriented environment. Through project based learning, laboratory work, and computational analysis, students gain the ability to interpret chemical behavior, design process solutions, and apply engineering methods to modern industrial challenges. Its focused one year structure allows learners to specialize efficiently while preparing for impactful careers in chemical engineering, energy systems, biotechnology, and technology driven manufacturing.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 607 255 2000
Email: admissions@cornell.edu
Address: Cornell University, Ithaca, NY 14850, United States
