M.A. in Anthropology
The University of Tulsa, a respected private research institution in the United States,...
M.S.E. in Chemical Engineering
Tulsa, Oklahoma
INTAKE: Jan & Aug
Program Overview
The University of Tulsa's Master of Science in Engineering (M.S.E.) in Chemical Engineering is a robust graduate program designed to provide students with advanced knowledge and skills in chemical process analysis, design, and optimization. This program offers both a thesis option, which involves original research under faculty supervision, and a non-thesis option, focusing more on advanced coursework and practical projects. The M.S.E. program aims to cultivate strong analytical and problem-solving abilities, preparing graduates for leadership roles and innovative contributions within diverse chemical engineering industries.
STEM Designated: Yes, the M.S.E. in Chemical Engineering program at the University of Tulsa is STEM-designated. This classification is highly advantageous for international students, as it typically permits an extended Optional Practical Training (OPT) period in the United States after graduation, offering more time to gain valuable professional experience.
Curriculum: The M.S.E. in Chemical Engineering curriculum at the University of Tulsa is structured to provide a deep theoretical understanding and practical application of chemical engineering principles. Core areas emphasized include thermodynamics, transport phenomena (fluid dynamics, heat and mass transfer), reaction engineering, and process control. Students delve into advanced concepts and engage in rigorous design projects. The program's coursework aims to enhance students' ability to critically analyze engineering design problems, considering the fundamental principles of engineering and science across a wide array of industrial applications.
Research Focus: The Russell School of Chemical Engineering at the University of Tulsa is known for its cutting-edge and transformative research activities, which are integral to the M.S.E. program, especially for thesis-track students. Faculty members possess diverse research interests, spanning areas such as energy (both traditional and alternative, e.g., renewable fuels from algae oil), process modeling and simulation, and biological/environmental engineering (e.g., the internationally recognized Indoor Air Program). This active research environment provides students with opportunities to contribute to novel solutions for complex engineering challenges and gain hands-on experience with advanced methodologies.
Industry Engagement: The University of Tulsa's M.S.E. in Chemical Engineering program is highly industry-oriented, boasting a strong success rate for its graduates. The curriculum is designed to equip students with practical skills and knowledge directly applicable to industrial problems. Alumni from the program find employment at world-renowned companies such as Pfizer, ExxonMobil, Accenture, ABB, and Guardian, demonstrating the program's strong connections to various sectors including pharmaceuticals, petrochemicals, environmental engineering, and materials. The emphasis on rigorous design projects and optional research opportunities further enhances students' readiness for professional roles.
Global Perspective: The M.S.E. in Chemical Engineering at the University of Tulsa inherently fosters a global perspective by addressing universal challenges and innovations in chemical engineering. The discipline influences numerous areas of technology worldwide, including alternative energy, biotechnology, environmental solutions, and manufacturing, all of which have global implications. The program prepares students to apply scientific innovations to improve the quality of life on a global scale. While specific international study opportunities are not explicitly detailed, the comprehensive training in fundamental engineering principles and exposure to diverse research areas ensures graduates are equipped to contribute to the global advancement of chemical engineering and collaborate effectively in an international context.
Location
Tulsa, Oklahoma
Score
IELTS 6.5
Tuition Fee
USD 27858
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
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 85 or higher.
- PTE: Overall score of 56 or higher.
- DET (Duolingo English Test): Minimum score of 110.
Standardized Test Requirements
- GRE (Graduate Record Examinations): Minimum score of 301 required.
The University of Tulsa (TU) in the United States offers a variety of scholarship opportunities to support international students in their academic journey. Attracting talented students from around the world, TU provides both merit-based and need-based scholarships to help reduce the financial burden of higher education.
Merit-Based Scholarships: International students admitted to TU are automatically considered for merit-based scholarships based on their academic achievements, standardized test scores, and overall application strength. These scholarships can significantly offset tuition costs, with awards ranging from partial tuition waivers to full scholarships. The university looks for outstanding academic records, leadership qualities, and extracurricular involvement when awarding these scholarships.
International Student Scholarships: TU offers specific scholarships aimed at international students, including renewable awards that encourage academic excellence throughout the duration of the degree program. Some scholarships are designated for particular fields of study or for students demonstrating strong community involvement.
Graduate Assistantships and Fellowships: Graduate international students may apply for assistantships and fellowships that provide tuition remission and stipends in exchange for teaching or research responsibilities. These positions not only offer financial support but also valuable professional experience within the university environment.
An M.S.E. in Chemical Engineering from the University of Tulsa provides graduates with advanced knowledge and practical skills in chemical process analysis, design, and optimization. This STEM-designated program offers both thesis and non-thesis options, catering to diverse career aspirations in research, industry, and academia. The curriculum focuses on core chemical engineering principles like thermodynamics, transport phenomena, and reaction engineering, while also exposing students to cutting-edge research in areas such as energy, process modeling, and environmental engineering. The University of Tulsa boasts a strong success rate for its chemical engineering graduates, with alumni finding employment at renowned companies like Pfizer, ExxonMobil, and Accenture, underscoring the program's strong industry connections and career readiness.
Process Engineer: These engineers are central to chemical manufacturing, designing, optimizing, and troubleshooting industrial processes to ensure efficiency, safety, and product quality. They work in industries ranging from petrochemicals to pharmaceuticals and food processing.
Research & Development (R&D) Engineer/Scientist: Chemical engineers in R&D develop new products, materials, and processes, or improve existing ones. This can involve working with advanced materials, biotechnology, sustainable energy, or developing new drug delivery systems.
Environmental Engineer: Focused on minimizing the environmental impact of industrial processes, these engineers design and implement solutions for pollution control, waste management, sustainable practices, and ensuring compliance with environmental regulations.
Petroleum/Natural Gas Engineer: Given Tulsa's strong energy sector, this is a significant career path. These engineers work in the exploration, production, refining, and transportation of oil and natural gas, optimizing processes for efficiency and safety.
Bioprocess Engineer: With the growing fields of biotechnology and bio-based products, bioprocess engineers design and optimize processes that use biological systems (e.g., microorganisms, enzymes) to produce pharmaceuticals, biofuels, biochemicals, and food products.
Materials Engineer: Chemical engineers often specialize in developing and characterizing new materials with specific properties, such as polymers, composites, ceramics, or nanomaterials, for use in various industries like aerospace, electronics, and medical devices.
Quality Control/Assurance Engineer: In industries with strict quality standards (e.g., pharmaceuticals, food and beverage), these engineers ensure that manufacturing processes and products meet regulatory requirements and internal quality specifications through testing and process monitoring.
Project Engineer: Chemical engineers often manage complex engineering projects from conception to completion. This involves planning, budgeting, scheduling, coordinating teams, and ensuring that projects are delivered on time and within scope.
Consultant (Chemical Engineering/Process Optimization): Graduates can work for consulting firms, providing expert advice to various industries on process optimization, sustainability initiatives, safety protocols, and new technology implementation.
Safety Engineer: Specializing in industrial safety, these engineers assess risks, develop safety protocols, and implement measures to prevent accidents and ensure compliance with safety regulations in chemical plants and other industrial facilities.
