329 Link Hall
315-443-1931; fax: 443-9175
Jesse Q. Bond, Katie D. Cadwell, Ruth Chen, Viktor Cybulskis, Julie M. Hasenwinkel, James H. Henderson, Ian Hosein, Era Jain, Xiyuan Liu, Zhen Ma, Mary Beth Monroe, Shikha Nangia, Dacheng Ren, Ashok Sangani, Pranav Soman, Radhakrishna Sureshkumar, Lawrence L. Tavlarides, Pun To Yung
Gino Duca, Bart Farrell, Eric Finkelstein, Kent Ogden, David Quinn, Dana Radcliffe, Suresh Santanam
Juntao Luo, Yan-Yeung Luk, Cristina Marchetti, Liviu Movileanu
Gustav Engbretson, John Heydweiller, Philip Rice, Klaus Schroder, Robert L. Smith, S. Alexander Stern, Chi Tien, Josef Zwislocki
Graduate Chemical Engineering Program Director:
121 Link Hall
The Department of Biomedical and Chemical Engineering offers a comprehensive set of graduate programs in bioengineering and chemical engineering, including Master’s of Science (MS) degrees and Doctor of Philosophy (PhD) degrees. Graduates of these programs work in the medical profession, the biomechanics and bioinstrumentation industries, the pharmaceutical industry, the chemical engineering industry, the government, and in education.
The graduate program in chemical engineering features a core of courses in chemical engineering, elective courses in areas of student interest, and an intense research or independent study experience with the student’s faculty advisor. Elective courses may be concentrated in a large number of special areas, including bioengineering, environmental engineering, computer science, materials science, and manufacturing engineering. New initiatives are underway in the multidisciplinary area of environmental systems that should provide a wealth of opportunities to graduate students in chemical engineering.
Student Learning Outcomes
1. Use the principles of science and mathematics to identify, formulate and solve advanced engineering problems
2. Apply both analysis and synthesis in the engineering design process, resulting in designs that meet constraints and specifications, including societal, economic, environmental, and other factors as appropriate to the design
3. Communicate advanced technical contents effectively with a range of audiences through various media
4. Establish goals, plan tasks, meet deadlines, manage risk and uncertainty, and function effectively on teams
5. Analyze and design units for advanced chemical engineering processes
M.S. in Chemical Engineering
The Master’s of Science degree in Chemical Engineering is a flexible and individually-structured program, determined by the student and his/her advisor. The MS can be a terminal degree or an introduction to research before pursuing the Ph.D.
There are two degree plans a student can choose:
Plan 1 has a minimum requirement of 30 credit hours of graduate study, including 24 credits of coursework and 6 credits of thesis. At least 12 credits of coursework must consist of the chemical engineering graduate core. A master’s thesis must be completed and defended in an oral examination.
Plan 2 also has a minimum requirement of 30 credit hours of graduate study, including the 12 credit chemical engineering graduate core and a 3 credit MS project course. A comprehensive examination must be completed as part of the MS Project course.
The MS degree typically requires three to four semesters to complete.
- Minimum GPA of 3.000 for all credits counted toward the completion of coursework requirements
- Minimum cumulative GPA of 2.800 for all credits earned
Chemical Engineering Graduate Core
All graduate students in Chemical Engineering are required to complete a set of 4 core courses:
Applicants who do not hold a bachelor’s degree in chemical engineering may be required to complete a number of additional undergraduate engineering courses as corequisites for graduate coursework.
The need for such bridging coursework will be considered on a case by case basis, and applicants will be notified of any such requirements at the time of admission into the program.
Bridging courses if assigned, are usually completed in the first year of study. All assigned bridging coursework must be completed prior to graduation.
Master’s of Science with Thesis (Plan 1)
Coursework Requirement (30 credits)
In addition to the 12 credit Chemical Engineering Graduate Core, all students in Plan 1 must complete:
- 12 credits of approved electives
- 6 credits of thesis coursework
The chemical engineering thesis course has been regularized as:
Successful completion of the MS degree with thesis requires a written MS thesis and an oral defense.
Students must submit a Request for Examination Form to the Graduate School at least three full weeks prior to the oral defense.
The thesis document must be delivered to the MS Thesis defense committee at least two weeks prior to the date of the oral defense.
The MS Thesis defense committee consists of four members:
- The thesis advisor;
- No fewer than two tenure-track members of the BMCE faculty; and
- The Chair of the Oral Examination Committee.
The Chair of the Oral Examination Committee must be a Syracuse University tenured or tenure-track faculty member outside the department and program.
All proposed committee members must be full-time or adjunct faculty members at Syracuse University. Outside committee members (e.g. from SUNY-ESF, Upstate Medical University, etc.) may be allowed by petition.
Defenses must comply with Graduate School policy and requirements, including proper formatting.
Master’s of Science Non-Thesis (Plan 2)
Coursework Requirements (30 credits)
In addition to the 12 credit Chemical Engineering Graduate Core, all students in Plan 2 must complete:
- at least 3 additional credits of coursework in chemical engineering (CEN)
- 12 credits of approved electives
- the 3 credit MS Project course
The chemical engineering MS Project course has been regularized as:
MS Project Requirement
Successful completion of the MS Project course and the accompanying Oral Comprehensive Examination.
The MS Project course, CEN 687 (Advanced Chemical Engineering Design), is only taught during the fall semester.
Oral Comprehensive Examination
The Oral Comprehensive Examination will be the culminating event of the M.S. Project course. Students will prepare and present the products/outcomes of their project to the departmental faculty and respond to questions from the faculty.
The examination committee will be composed of at least three department faculty, but all faculty are invited, and the examination will be scheduled to maximize faculty participation.
The examination committee will meet separately to determine if the student has passed the examination, and the student will be informed of the decision.
Students are required to submit an electronic copy of presentation materials to the Department prior to the presentation.