M.S. in Business Analytics & Project Management
UConn's M.S. in Business Analytics & Project Management program is designed for...
B.S.E in Chemical Engineering
Storrs
INTAKE: August
Program Overview
The Bachelor of Science in Engineering (B.S.E.) in Chemical Engineering at the University of Connecticut (UConn) is a comprehensive program designed to equip students with expertise in chemical processes, materials science, and environmental sustainability. The program integrates fundamental principles of chemistry, physics, and mathematics with engineering applications to address challenges in industries such as pharmaceuticals, energy, biotechnology, and environmental engineering. Students develop problem-solving skills and technical proficiency through coursework, laboratory experiments, and hands-on projects, preparing them for careers in various high-demand sectors.
STEM Designated: The B.S.E. in Chemical Engineering at UConn holds a STEM (Science, Technology, Engineering, and Mathematics) designation, providing students with an advanced technical education and valuable opportunities for research and employment. This designation also benefits international students, allowing them to apply for extended Optional Practical Training (OPT) in the United States. The STEM focus underscores the program’s emphasis on technological innovation, sustainability, and interdisciplinary problem-solving in chemical engineering.
Curriculum: The curriculum of Chemical Engineering at UConn is structured to provide a strong foundation in chemical process design, thermodynamics, fluid mechanics, and reaction engineering. Core courses include Transport Phenomena, Process Control, Chemical Kinetics, Materials Science, Biochemical Engineering, and Energy Engineering. Students also take elective courses that allow specialization in areas such as pharmaceutical engineering, nanotechnology, polymers, and renewable energy. The program incorporates laboratory work, computational modeling, and capstone design projects, ensuring students gain hands-on experience in solving real-world engineering problems.
Research Focus: UConn’s Chemical Engineering program is at the forefront of research in sustainable energy, biomolecular engineering, materials science, and environmental protection. Students have the opportunity to collaborate with faculty on innovative research projects in areas such as fuel cell technology, nanomaterials, biopharmaceuticals, and wastewater treatment. Research facilities, including the Institute for Materials Science and the Center for Clean Energy Engineering, provide students with access to state-of-the-art equipment and laboratories. By engaging in research, students gain valuable experience that prepares them for careers in academia, industry, and government research agencies.
Industry Engagement: The program maintains strong connections with leading industries, enabling students to participate in internships, cooperative education (co-op) programs, and industry-sponsored projects with companies such as Pfizer, Dow Chemical, ExxonMobil, and Pratt & Whitney. UConn’s partnerships with these organizations allow students to gain practical experience, develop professional networks, and enhance their technical skills. The university also hosts career fairs, industry seminars, and mentorship programs to support students in securing job placements and internships in the chemical engineering field.
Global Perspective: With a growing demand for chemical engineers in diverse industries worldwide, the program at UConn emphasizes a global perspective by incorporating international case studies, sustainability-focused courses, and opportunities for study abroad programs. Students gain exposure to international regulations, global engineering challenges, and cross-cultural collaboration, preparing them to work in multinational companies and contribute to global sustainability efforts. The curriculum also highlights the role of chemical engineers in addressing climate change, renewable energy development, and healthcare advancements.
Location
Storrs
Score
IELTS 6.5
Tuition Fee
USD 39678
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 70% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 79 or higher.
- DET (Duolingo English Test): Minimum score of 100.
The University of Connecticut (UConn) offers a range of merit-based scholarships to support international students in their academic journey. These scholarships are designed to recognize exceptional academic achievements and leadership qualities.
Global Excellence Award: This scholarship is awarded to international students who have demonstrated outstanding academic performance and leadership both in and outside the classroom.
Global Distinction Award: Similar to the Global Excellence Award, this scholarship recognizes international students with exceptional academic records and leadership abilities.
Global Leader Award: This award honors international students who have shown exceptional academic achievement and leadership qualities.
Graduates of the B.S.E. in Chemical Engineering program at the University of Connecticut (UConn) have a wide range of career opportunities in various industries, from energy and pharmaceuticals to biotechnology and environmental engineering. With a strong foundation in chemical processes, materials science, and environmental sustainability, UConn’s graduates are well-prepared to meet the growing demand for skilled professionals in the chemical engineering sector.
Chemical Engineer: Chemical engineers work in industries such as chemicals, energy, and food production, where they design and optimize processes that convert raw materials into valuable products. They may work on designing reactors, process flow systems, and improving production efficiency in manufacturing facilities. Chemical engineers can be found working with companies like Dow Chemical, Shell, and DuPont.
Process Engineer: Process engineers focus on developing and optimizing industrial processes to produce high-quality materials or products. They are involved in the design, operation, and scale-up of chemical processes used in the production of chemicals, fuels, and pharmaceuticals. These engineers work in manufacturing plants, refining industries, and energy production companies, ensuring the efficiency and safety of chemical processes.
Pharmaceutical Engineer: Pharmaceutical engineers design and improve processes for producing medications and vaccines. They work with research and development teams to scale up drug formulations, improve manufacturing techniques, and maintain the quality and consistency of pharmaceutical products. This role is crucial in biotech firms, pharmaceutical companies, and contract manufacturing organizations.
Biochemical Engineer: Biochemical engineers apply chemical engineering principles to biological processes, such as the production of biomolecules, biofuels, and biopharmaceuticals. They work in areas like gene therapy, vaccine production, and the development of new therapies. These professionals may work in biotechnology firms, healthcare, and research institutions.
Environmental Engineer: Environmental engineers use chemical engineering principles to develop solutions to environmental challenges, including water treatment, pollution control, and waste management. They work on projects that aim to reduce the impact of industrial activities on the environment by designing processes and systems that minimize waste and emissions. These engineers work in government agencies, environmental consulting firms, and nonprofit organizations.
Energy Engineer: Energy engineers focus on developing and implementing sustainable and efficient energy solutions, including renewable energy sources like solar, wind, and bioenergy. They may also work in traditional energy sectors such as oil and gas or focus on improving energy efficiency in manufacturing processes. Energy engineers play a crucial role in addressing global energy challenges and ensuring energy security.
Materials Scientist/Engineer: Materials scientists and engineers study and design new materials with applications in various industries, including electronics, medical devices, and manufacturing. They may focus on polymers, composites, nanomaterials, or biomaterials and work on the development of innovative materials that improve the performance of products in industries such as aerospace, automotive, and electronics.
Quality Control Engineer: Quality control engineers in the chemical industry are responsible for ensuring that the products manufactured meet industry standards and regulations. They work on developing testing procedures and using advanced analytical techniques to monitor the quality of materials and products throughout the production process. Quality control engineers often work in pharmaceutical companies, chemical manufacturing plants, and food production.
Consultant in Chemical Engineering: Consultants in chemical engineering advise companies on how to improve their processes, comply with environmental regulations, or implement new technologies. They analyze existing systems and propose solutions for improving efficiency, safety, and sustainability. Chemical engineering consultants can work independently or for consulting firms, providing expert advice to various industries.
R&D Engineer (Research and Development): R&D engineers in chemical engineering focus on innovating and improving existing technologies or developing new products. They work on research projects aimed at creating new chemical processes, improving energy efficiency, or advancing biotechnology applications. These professionals work in universities, research labs, and private industry.
Manufacturing Engineer: Manufacturing engineers are responsible for the design, operation, and improvement of production systems. They ensure that manufacturing processes are cost-effective, efficient, and safe. Chemical engineering graduates can work in automotive, electronics, pharmaceuticals, and consumer goods industries, where they contribute to scaling up production and optimizing manufacturing processes.
Sustainability Engineer: Sustainability engineers focus on creating more sustainable and environmentally friendly processes in industries such as chemicals, energy, and construction. They work to develop technologies that reduce environmental footprints, minimize waste, and enhance the use of renewable resources. They play a vital role in helping industries achieve sustainability goals and comply with regulatory standards.
Petroleum Engineer: Petroleum engineers specialize in the extraction of oil and gas resources. They design and develop techniques for drilling, production, and reservoir management to maximize oil and gas recovery. While working in offshore drilling, oil exploration, and refining industries, petroleum engineers play a significant role in ensuring efficient and safe operations in the energy sector.
Project Manager in Chemical Engineering: Project managers in chemical engineering oversee the planning, execution, and completion of engineering projects in areas like chemical manufacturing, construction, and pharmaceutical production. They coordinate multidisciplinary teams, manage budgets, timelines, and ensure that projects meet quality and safety standards. Project managers often work for large engineering firms, construction companies, and consulting agencies.
Environmental Health and Safety Engineer: Environmental health and safety engineers in chemical engineering work to ensure that manufacturing processes are safe for workers, the environment, and communities. They design risk management systems, safety protocols, and environmental compliance strategies to ensure companies meet regulatory standards in industries such as chemical manufacturing, pharmaceuticals, and oil and gas.
