M.S. in Water Resources
The University of Idaho, nestled in the scenic landscapes of Moscow, Idaho, proudly off...
B.S. in Chemical Engineering
Moscow, Idaho
INTAKE: Jan & Aug
Program Overview
The B.S. in Chemical Engineering program at the University of Idaho is designed to equip students with a deep understanding of chemical processes and their applications in various industries. This program prepares students for careers in chemical engineering by combining theoretical knowledge with practical experience. It focuses on the design, optimization, and management of processes that convert raw materials into valuable products, addressing challenges in sectors such as energy, pharmaceuticals, and environmental protection.
Curriculum: The curriculum for the B.S. in Chemical Engineering includes a rigorous blend of core chemical engineering courses, mathematics, and physical sciences. Students study fundamental topics such as thermodynamics, fluid mechanics, heat and mass transfer, and chemical reaction engineering. The program also incorporates laboratory courses that provide hands-on experience with chemical processes and instrumentation. Advanced courses and electives allow students to explore specialized areas such as biochemical engineering, process control, and environmental engineering. A capstone design project integrates learning and provides practical experience in solving real-world engineering problems.
Research Focus: The B.S. in Chemical Engineering program emphasizes research in key areas of chemical engineering, including process development, materials science, and environmental engineering. Faculty and students engage in research projects that address contemporary challenges such as sustainable energy solutions, advanced materials, and pollution control. Research initiatives often involve collaborations with industry partners and aim to develop innovative technologies and methodologies. Students are encouraged to participate in research activities, contributing to advancements in chemical engineering and gaining valuable experience in conducting scientific investigations.
Industry Engagement: Industry engagement is a significant component of the B.S. in Chemical Engineering program. Students benefit from internships, cooperative education opportunities, and collaborations with industry professionals. These experiences provide practical insights into the chemical engineering field, enhance students' technical skills, and help build professional networks. The program’s connections with industry partners ensure that students stay updated on current trends and practices in chemical engineering and gain relevant experience that improves their employability.
Global Perspective: The B.S. in Chemical Engineering program incorporates a global perspective by addressing international issues and advancements in chemical engineering. Students are encouraged to participate in study abroad programs, international research collaborations, and global conferences. This exposure to global practices and perspectives enriches their understanding of how chemical engineering solutions can be applied to address global challenges such as climate change, resource management, and sustainable development. The program prepares graduates to work effectively in a globalized engineering environment and contribute to international projects and initiatives.
Location
Moscow, Idaho
Score
IELTS 6
Tuition Fee
USD 27876
Undergraduate Entry Requirements
Application Fee: $50
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 70 or higher.
- PTE: Overall score of 48 or higher.
- DET (Duolingo English Test): Overall score of 100.
The University of Idaho (UI) offers a variety of scholarships and financial aid options to help international students pursue their education in the United States. These scholarships are designed to recognize academic achievement, talent, and diversity.
International Excellence Scholarship: This merit-based scholarship is open to undergraduate international students who demonstrate exceptional academic performance. The scholarship amount varies and is renewable for up to four years. Eligibility is determined based on academic records and standardized test scores.
International Cultural Diversity Scholarship: UI values diversity and offers this scholarship to incoming undergraduate international students who enhance the cultural diversity of the campus. It provides financial support and is renewable for up to four years.
International Student Grants: These need-based grants are available to international undergraduate and graduate students who demonstrate financial need. Eligibility is determined based on the Free Application for Federal Student Aid (FAFSA) or other required documentation.
College and Departmental Scholarships: Many academic colleges and departments within UI offer scholarships specific to their programs. These scholarships may be based on academic performance, major, or other criteria. Students are encouraged to check with their respective college or department for available opportunities.
External Scholarships: UI also provides information and guidance to international students seeking external scholarships, which are offered by organizations, foundations, and government agencies outside the university. These scholarships may have specific eligibility requirements and application deadlines.
Athletic Scholarships: International student-athletes with exceptional sports talents may be eligible for athletic scholarships. These scholarships are typically awarded through the university's athletics department.
It's important to note that scholarship eligibility criteria, application processes, and deadlines can vary.
Graduates of the B.S. in Chemical Engineering program at the University of Idaho have a wide range of career opportunities available to them, thanks to their comprehensive training in chemical processes, engineering principles, and problem-solving skills. The program’s strong focus on both theoretical knowledge and practical experience equips students for various roles in industry, research, and beyond.
Chemical Engineer: Chemical engineers design, develop, and optimize processes for manufacturing chemicals, pharmaceuticals, and other products. They work in industries such as petrochemicals, pharmaceuticals, and food processing, focusing on improving process efficiency, safety, and environmental sustainability.
Process Engineer: Process engineers are responsible for designing, implementing, and managing processes used in the production of goods. They work on optimizing process parameters, troubleshooting issues, and ensuring that production meets quality and safety standards. Their work is crucial in industries such as chemical manufacturing, petrochemicals, and biotechnology.
Materials Scientist: Materials scientists study and develop new materials with specific properties for various applications. They work on creating advanced materials such as polymers, composites, and nanomaterials, and are involved in research and development for industries including aerospace, electronics, and manufacturing.
Environmental Engineer: Environmental engineers focus on developing technologies and processes to address environmental challenges such as pollution control, waste management, and resource conservation. They work on projects related to water treatment, air quality, and sustainable practices to protect and improve the environment.
Pharmaceutical Engineer: Pharmaceutical engineers work in the pharmaceutical industry, focusing on the design and optimization of processes for drug manufacturing. They ensure that drug products are produced efficiently, meet regulatory standards, and are safe for use.
Process Safety Engineer: Process safety engineers specialize in identifying and mitigating risks associated with chemical processes. They develop safety protocols, conduct risk assessments, and implement safety systems to prevent accidents and ensure compliance with safety regulations.
Energy Engineer: Energy engineers work on projects related to the production, distribution, and conservation of energy. They are involved in developing and implementing technologies for renewable energy sources, improving energy efficiency, and managing energy systems in industries such as oil and gas, and utilities.
Biochemical Engineer: Biochemical engineers apply chemical engineering principles to the production of biotechnological products such as vaccines, biofuels, and enzymes. They work in industries such as biotechnology and pharmaceuticals, focusing on process development and optimization for biological systems.
Consulting Engineer: Consulting engineers provide expert advice on engineering projects, offering solutions to complex problems in various industries. They may work on a range of projects, including process optimization, environmental compliance, and project management, providing valuable insights and recommendations.
Research and Development (R&D) Scientist: R&D scientists conduct research to develop new products, processes, or technologies. They work in both academic and industrial settings, focusing on innovation and the application of chemical engineering principles to advance scientific knowledge and technological capabilities.
Project Manager: Project managers oversee engineering projects from conception to completion, managing budgets, schedules, and resources. They coordinate activities, ensure project milestones are met, and work with teams to achieve project goals in various sectors, including chemical manufacturing and infrastructure.
