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Chemical Engineering
The Chemical Engineering Bachelor of Science program at the University of Wisconsin provides students with a comprehensive education in the principles, theory, and applications of chemical processes and engineering design. The program integrates chemistry, physics, mathematics, and engineering to prepare students to develop, optimize, and operate chemical processes safely and efficiently. Students study thermodynamics, fluid mechanics, transport phenomena, reaction engineering, process design, and materials science, developing analytical, technical, and problem-solving skills. The curriculum emphasizes both theoretical knowledge and hands-on laboratory and design experiences, equipping graduates to innovate in chemical manufacturing, energy production, pharmaceuticals, and materials development.
Throughout the program, students participate in laboratory experiments, process simulations, and collaborative projects, gaining practical experience in chemical analysis, process optimization, and safety management. Interdisciplinary coursework links chemical engineering to biotechnology, environmental engineering, materials science, and industrial processes, preparing students to address complex technical challenges. Graduates leave the program with a strong foundation in engineering principles, technical proficiency, and practical problem-solving skills, ready to contribute to innovative chemical engineering solutions in diverse professional settings.
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: 15 January 2026
- Location: University of Wisconsin, United States
- Field of Study: Chemical Engineering
- Language of Instruction: English
Program Structure
Year 1 – Foundations in Chemical Engineering
• Introduction to Chemical Engineering
• General Chemistry I & II
• College Writing and Communication
• Calculus I & II
Year 2 – Core Chemical Engineering Principles
• Organic Chemistry
• Material and Energy Balances
• Fluid Mechanics and Thermodynamics
• Physics for Engineers
Year 3 – Applied Chemical Engineering
• Chemical Reaction Engineering
• Process Control and Instrumentation
• Transport Phenomena
• Laboratory and Design Projects
Year 4 – Advanced Integration and Capstone
• Process Design and Optimization
• Chemical Engineering Laboratory
• Independent Research Project or Capstone
• Seminar in Advanced Chemical Engineering
Career Opportunities
Graduates of the Chemical Engineering program are prepared for careers in chemical manufacturing, pharmaceutical development, petrochemical and energy industries, materials engineering, environmental consulting, process design, and research and development. They may work in industrial corporations, research laboratories, energy companies, regulatory agencies, or consulting firms. Many graduates also pursue advanced degrees in chemical engineering, materials science, biotechnology, environmental engineering, or business, enhancing their opportunities for leadership, technical specialization, and research roles. Employers value graduates for their technical expertise, analytical thinking, problem-solving abilities, project management skills, and ability to innovate and optimize complex chemical processes, making them highly competitive in both industrial and research-based chemical engineering careers.
Why Choose This Program
This program offers a distinctive combination of theoretical knowledge, practical experience, and interdisciplinary training, preparing students to solve complex engineering challenges in chemical and related industries. Students benefit from faculty mentorship, access to state-of-the-art laboratories, and hands-on design and research projects that integrate theory with real-world application. The curriculum emphasizes critical thinking, ethical decision-making, process optimization, and innovation, equipping graduates to design, analyze, and improve chemical processes while considering safety, efficiency, and environmental sustainability. Whether pursuing careers in industry, research, environmental management, or advanced study, students graduate with the expertise, practical skills, and professional confidence to contribute meaningfully to technological and scientific advancements in chemical engineering.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 608-262-2433
Email: admissions@grad.wisc.edu
Address: 217 Bascom Hall, 500 Lincoln Drive, Madison, WI 53706, USA
