Oklahoma State University

205

CHE 4990 Special Problems Prerequisites: Senior standing.

CHE 5123 Advanced Chemical Reaction Engineering Prerequisites: CHE 4473.

Description: Training in independent work, study of relevant literature, and experimental investigation of an assigned problem. Offered for variable credit, 1-5 credit hours, maximum of 5 credit hours. Credit hours: 1-5 Contact hours: Other: 1 Levels: Undergraduate Schedule types: Independent Study Department/School: Chemical Engineering CHE 5000 Master’s Thesis Prerequisites: Approval of major professor. Description: Methods used in research and thesis writing. Offered for variable credit, 1-6 credit hours, maximum of 6 credit hours. Credit hours: 1-6 Contact hours: Other: 1 Levels: Graduate Schedule types: Independent Study Department/School: Chemical Engineering CHE 5030 Professional Practice Prerequisites: Senior standing and consent of instructor. Description: Application of chemical engineering principles to the solution of real-life engineering problems in an actual or simulated industrial environment. Includes application of design and testing procedures, economic evaluation and reporting on one or more assigned projects. Offered for variable credit, 2-6 credit hours, maximum of 8 credit hours. Credit hours: 2-6 Contact hours: Other: 2 Levels: Graduate Schedule types: Independent Study Department/School: Chemical Engineering CHE 5073 Tissue Engineering Prerequisites: Graduate standing and permission of instructor. Description: Tissue engineering (TE) and the material strategy for different tissue constructs in bone TE, liver TE, neural TE, intestine TE, etc. will be discussed in this course. Same as MSE 5073. May not be used for degree credit with CHE 4703. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate Schedule types: Lecture Department/School: Chemical Engineering CHE 5110 Special Topics in Chemical Engineering Prerequisites: Consent of instructor. Description: Small group and individual projects in unit operations, unit procedures, chemical kinetics, computer applications, process modeling, or any of a wide range of chemical engineering topics. May be repeated for credit if subject matter varies. Offered for variable credit, 2-3 credit hours, maximum of 6 credit hours. Credit hours: 2-3 Contact hours: Other: 2 Levels: Graduate Schedule types: Independent Study Department/School: Chemical Engineering

Description: Advanced principles and applications of chemical kinetics in catalysis, heterogeneous systems, non-ideal reactions, polymerization, and biological reactions. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate Schedule types: Lecture

Department/School: Chemical Engineering CHE 5133 Catalysis and Photocatalysis

Prerequisites: Graduate standing or CHE 3123 or consent of instructor. Description: Molecular level insight into catalysis and photocatalysis from the basics of chemistry and chemical engineering. Topics covered include homogeneous catalysis, heterogeneous catalysis, molecular photocatalysis, and photocatalysis on metals and metal oxides. The rational design of catalysts using first-principle (e.g., density functional theory) calculations is covered. Advancements made in the experimental and computational catalysis fields to convert renewable natural resources such as solar light and cellulosic biomass into electricity, fuels, valuable chemicals and pharmaceuticals. May not be used for degree credit with CHE 4133. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate Schedule types: Lecture

Department/School: Chemical Engineering CHE 5213 Advanced Transport Phenomena

Prerequisites: CHE 3333 (or equivalent), or graduate student standing in the School of Chemical Engineering, or a closely related, calculus-based STEM discipline, or consent of instructor. Description: Mechanisms and modeling of mass, momentum and heat transport with an emphasis on chemical, petroleum, and biomedical engineering applications. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate Schedule types: Lecture Department/School: Chemical Engineering CHE 5233 Bioseparations Prerequisites: BAE 3013 or CHE 3013. Description: Study of separations important in food and biochemical engineering such as leaching, extraction, expression, absorption, ion exchange, filtration, centrifugation, membrane separation, and chromatographic separations. Course available online only through AG*IDEA consortium. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate Schedule types: Lecture Department/School: Chemical Engineering