General Requirements - Candidates for the Master's of Science (MS) Degree (with a Thesis) in Chemical and Biomolecular Engineering will develop, with the advice and approval of their advisor, a program of study wich satisfies the student's goals, subject to the requirements of the Graduate Studies Committee and the Graduate School. The minimum requirement for the MS degree is 45 credit hours beyond the Bachelor's of Science (BS) degree. The total academic course requirement, not including research or special project problems, is 32 credit hours. A minimum of thirteen (13) credits of Research ChBE 999 are required.
Course Requirements - Three categories of course work are described
below. A minimum of thirty-two (32) quarter-credit
hours of course work is required for candidates
with a BS in Chemical Engineering from an
Accreditation Board for Engineering and
Technology, Inc. (ABET)-accredited school.
Students from schools which have other academic
accreditation must fulfill supplementary
undergraduate curriculum course work requirements.
a. Core Courses in Chemical and Biomolecular Engineering
Successful completion of the following twenty
(20)- academic quarter courses are required for
graduation:
| ChBE 801* |
Chemical
Engineering Analysis |
3 credit
hours |
| ChBE
808 |
Advanced
Chemical Engineering Thermodynamics |
3 credit
hours |
| ChBE
812 |
Advanced
Chemical Engineering Kinetics |
3 credit
hours |
| ChBE
815.01 |
Advanced Mass
Transfer - I |
3 credit
hours |
| ChBE
815.08 |
Advanced
Momentum Transfer - I |
3 credit
hours |
| ChBE
881 |
Seminar |
3 credit
hours |
| Chem
685 |
Safety
Seminar |
2 credit
hours |
b. Advanced Graduate Courses in Chemical and Biomolecular Engineering
A minimum of six (6) additional quarter-credit
hours of advanced chemical engineering courses is
required. Courses in this area must be selected with the
advisor's guidance and will be integrated into a
program that is of greatest value to the student.
These courses are listed below and may change from
year to year.
| ChBE
626 |
Digital Control
Techniques in Chemical Engineering |
| ChBE
694 |
Group Studies in
Chemical Engineering (new and pertinent
courses) |
| ChBE
712 |
Catalysis and
Catalytic Processes |
| ChBE
715 |
Particle Technology |
| ChBE
717 |
Colloids and Surfaces |
| ChBE
726 |
Chemical Process
Dynamics and Control - II |
| ChBE
733 |
Novel
Separations |
| ChBE
739 |
Knowledge-Based
Systems in Engineering |
| ChBE
761 |
Chemical
Engineering Processes |
| ChBE
765 |
Biochemical
Engineering Fundamentals |
| ChBE
766 |
Biotechnology
and Bioprocess Engineering |
ChBE
769 |
Biomedical Nanotechnology |
| ChBE
771 |
Air Pollution
Control |
| ChBE
772 |
Principles of Sustainable Engineering |
| ChBE
773 |
Introduction to
High Polymer Engineering |
| ChBE
774 |
Polymer Membranes |
| ChBE
775 |
Rheology of
Fluids |
| ChBE
776 |
Principles of
Polymer Conversion Operations |
| ChBE
779 |
Chemical
Engineering Experimental Design |
| ChBE
781 |
Chemical
Engineering and Optimization |
| ChBE
790 |
Process Modeling
and Simulation |
| ChBE
801 |
Advanced Special
Problems in Chemical Engineering |
| ChBE 809 |
Advanced
Chemical Engineering Thermodynamics II |
| ChBE
813 |
Advanced
Chemical Engineering Kinetics II |
| ChBE
815.05 |
Advanced Heat
Transfer |
| ChBE
815.09 |
Advanced
Momentum Transfer - II |
| ChBE
815.10 |
Advanced
Momentum Transfer - III |
| ChBE
815.15 |
New or Unusual
Chemical Engineering Operations |
| ChBE
899 |
Teaching
Experience |
c. Other Elective Courses
Graduate-level courses in chemical engineering or
other scientific, mathematics, or engineering
disciplines are to be selected to fit the
candidate's goals with the consent of the advisor.
Six (6) quarter-credit hours are required.
|
