M.B.A. in Business Administration
The Stevens MBA program offers various formats to cater to diverse student needs, inclu...
Master of Engineering- Chemical Engineering
Hoboken, New Jersey
INTAKE: Jan & Sept
Program Overview
The M.Eng. in Chemical Engineering is a 30-credit degree program, typically completed within 1.5 to 2 years for full-time students. The curriculum is structured around foundational chemical engineering concepts, with opportunities for specialization through concentrations. Students complete 5 core courses (15 credits) specific to their chosen concentration, along with 2 zero-credit seminar courses (CHE 700), and 5 elective courses (15 credits). Electives can include research credits, providing flexibility for students interested in a research-intensive path. The program offers concentrations in Chemical Engineering, Polymer Engineering, and Application of Machine Learning to Pharmaceutical Development. It is available both on-campus and fully online, accommodating diverse student needs, including working professionals.
STEM-designated: Yes, the Stevens Institute of Technology M.Eng. in Chemical Engineering program is STEM-designated. This is a significant advantage, particularly for international students. The STEM designation makes them eligible for a 24-month extension of their Optional Practical Training (OPT) in the United States, allowing for a total of up to three years of valuable post-graduation work experience. This designation clearly reflects the program's rigorous scientific, engineering, and quantitative focus, which is highly valued by employers in the chemical, pharmaceutical, and manufacturing industries.
Curriculum: The 30-credit curriculum provides an in-depth understanding of advanced chemical engineering principles. Core courses for the Chemical Engineering concentration typically include Chemical Engineering Thermodynamics, Advanced Momentum Transfer, Advanced Heat and Mass Transfer, Reactor Design, and Applied Mathematics for Engineers & Scientists II. Elective courses allow for specialization in areas such as biofuels, colloids and interfacial phenomena, processing of polymers for biomedical applications, introduction to pharmaceutical manufacturing, and nanotechnology. The curriculum emphasizes the application of advanced chemical engineering concepts, evaluation of feasibility, cost, safety, regulatory issues, and societal impacts in chemical processing systems, and collaboration using modern information technology tools.
Research Focus: The M.Eng. in Chemical Engineering program at Stevens has a strong research focus, encouraging students to engage in cutting-edge and impactful research alongside experienced faculty. The Department of Chemical Engineering and Materials Science fosters a technology-centric research environment with applications in important areas like sustainability and healthcare. Research areas include inorganic material synthesis and crystal engineering for sustainable energy, multi-scale modeling and simulation, nanophotonics and fiber optics, polymer synthesis/characterization/processing, reaction engineering, and tissue and cancer engineering. Students have access to well-equipped research laboratories, including the Highly Filled Materials Institute, the Soft Materials Laboratory, and the New Jersey Center for Micro-Chemical Systems, providing ample opportunities for hands-on research and contribution to scientific advancements.
Industry Engagement: Stevens Institute of Technology places a very high priority on industry engagement for its Chemical Engineering programs. Its strategic location, just 15 minutes from downtown Manhattan, provides students with exceptional networking and professional opportunities within the vast chemical, pharmaceutical, energy, and materials industries. The curriculum is continuously updated to reflect the latest industry trends and technological advancements, including the integration of AI electives and hands-on education. Stevens maintains strong ties with leading companies, and its extensive alumni community actively facilitates networking and professional opportunities. Graduates are well-prepared for a wide range of professional opportunities in manufacturing, design, research, and development. The program reports a mean compensation of $85,000 for its Chemical Engineering graduates from the Class of 2023, with a 75% employment rate within three months.
Global Perspective: Stevens Institute of Technology fosters a global perspective within its M.Eng. in Chemical Engineering program through its diverse international student population and the inherently global nature of chemical engineering and related industries. The university attracts students from around the world, creating a multicultural learning environment that enriches classroom discussions with varied insights into international practices, regulations, and global challenges such as sustainable energy and environmental issues. The skills gained, such as process design, materials development, and reaction engineering, are universally applicable across international markets and industries, preparing graduates to contribute to technological advancements and collaborate on projects that span national borders.
Location
Hoboken, New Jersey
Score
IELTS 6.5
Tuition Fee
USD 46048
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 74 or higher.
- DET (Duolingo English Test): Minimum score of 110.
Stevens Institute of Technology offers a variety of scholarships specifically designed to support international students, helping to make a world-class education more affordable and accessible. These scholarships recognize academic excellence, leadership potential, and contributions to the campus community.
Merit-Based Scholarships: Stevens provides competitive merit scholarships for international undergraduate and graduate students based on academic performance, standardized test scores, and other achievements. These awards can significantly reduce tuition costs and are automatically considered during the admissions process for many programs.
Need-Based Financial Aid: While limited, some need-based aid options are available to international students. Applicants are encouraged to provide detailed financial information to be considered for such assistance.
Graduate Fellowships and Assistantships: International graduate students may be eligible for fellowships, research assistantships, or teaching assistantships, which offer tuition waivers and stipends. These opportunities not only provide financial support but also valuable hands-on experience in research and academic work.
Special Scholarships: Stevens occasionally offers specialized scholarships targeting students from certain countries, underrepresented fields, or those pursuing specific disciplines like engineering, business, or cybersecurity. Prospective students should check the official Stevens website or contact the admissions office for current scholarship opportunities.
A Master of Engineering (M.Eng.) in Chemical Engineering from Stevens Institute of Technology, located in Hoboken, New Jersey, is a highly respected and STEM-designated program designed to equip graduates for leadership roles in a wide array of industries reliant on chemical processes.
Process Engineer: A fundamental role where graduates design, optimize, and troubleshoot chemical processes in manufacturing plants. They focus on improving efficiency, reducing costs, ensuring safety, and enhancing product quality in industries such as chemicals, oil & gas, and food & beverage.
R&D Engineer/Scientist: Involved in research and development, creating new chemical products, processes, or technologies. This can range from developing novel catalysts to innovating new materials or optimizing drug formulation processes.
Pharmaceutical Manufacturing Engineer: Specializing in the pharmaceutical industry, these engineers design and manage processes for the production of medicines, ensuring compliance with strict Good Manufacturing Practices (GMPs) and regulatory standards.
Polymer Engineer: For those specializing in Polymer Engineering, this role involves the design, synthesis, processing, and characterization of polymers for various applications, including plastics, composites, textiles, and biomedical devices.
Environmental Engineer: Applying chemical engineering principles to address environmental challenges, such as designing systems for pollution control, waste treatment, air quality management, and sustainable resource utilization.
Materials Engineer (Chemical Process Focus): Working with the chemical aspects of materials, such graduates might focus on the synthesis, processing, and properties of advanced materials, often for specific applications in electronics, energy, or aerospace.
Automation/Control Systems Engineer: Designs and implements automated control systems for chemical processes, ensuring precise operation, safety, and efficiency through the use of sensors, software, and control logic.
Project Engineer (Chemical): Manages engineering projects from conception to completion, particularly those involving the design, construction, or modification of chemical plants or process units, ensuring projects are delivered on time and within budget.
Data Scientist (Pharmaceutical/Chemical Industry): With the "Application of Machine Learning to Pharmaceutical Development" concentration, graduates can apply data analysis, machine learning, and statistical methods to optimize drug discovery, development, and manufacturing processes.
Technical Sales/Business Development: Leveraging their deep technical knowledge, graduates can work in roles that bridge engineering with business, promoting chemical products, technologies, or services to clients, and identifying new market opportunities.
