Oklahoma State University

203

CHE 4002 Chemical Engineering Laboratory I Prerequisites: CHE 3013, CHE 3333, CHE 3473, admission to CHE Professional School. Description: Application of CHE fundamentals and unit operation principles to the analysis of bench and pilot-scale equipment. Primarily fluid processing and heat exchange. Design of experiments on non- ideal units to generate credible data useful for validation of principles and for engineering decisions. Interpretation of experimental data and presentation of results. Credit hours: 2 Contact hours: Lab: 4 Levels: Graduate, Undergraduate Schedule types: Lab Department/School: Chemical Engineering CHE 4073 Introduction to Tissue Engineering Prerequisites: Senior standing or higher and ENSC 3233 and ENSC 3313 and MATH 2153; or by consent of instructor. Description: An overview of the principles of tissue engineering and regenerative medicine, including a general understanding of tissue growth and development, and an investigation of the engineering principles needed to design tissues and organs. May not be used for degree credit with CHE 5073. Credit hours: 3 Contact hours: Lecture: 3

CHE 4133 Introduction to Catalysis and Photocatalysis Prerequisites: Senior standing or higher and 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 5133. Credit hours: 3 Contact hours: Lecture: 3

Levels: Undergraduate Schedule types: Lecture

Department/School: Chemical Engineering CHE 4224 Chemical Engineering Design II

Prerequisites: CHE 4124 and admission to CHE Professional School. Description: A continuation of CHE 4124. Economic analysis of process plants and equipment. Design of chemical processing equipment and chemical plants. Application of computer techniques to chemical engineering design. Credit hours: 4 Contact hours: Lecture: 3 Lab: 2 Levels: Graduate, Undergraduate Schedule types: Lab, Lecture, Combined lecture and lab Department/School: Chemical Engineering CHE 4283 Bioprocess Engineering Prerequisites: Admission to CHE Professional School and CHE 3123 (or instructor consent). Description: Application of fundamental engineering principles to biochemical and biological processes. Introduction to cellular processes, fermentation technology, biological mass transfer and kinetics, bioreactor design and scale-up and downstream processing. Same course as BAE 4283. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Chemical Engineering CHE 4293 Biomedical Engineering Prerequisites: ENSC 2213, ENSC 3233, MATH 2155. Description: Introduction to engineering principles applied to biomedical applications. Biomaterials, drug delivery, artificial organs, transport in biological systems, tissue engineering and modeling of biological systems. Credit hours: 3 Contact hours: Lecture: 3

Levels: Undergraduate Schedule types: Lecture

Department/School: Chemical Engineering CHE 4112 Chemical Engineering Laboratory II Prerequisites: CHE 3113, CHE 3123, CHE 4002, admission to CHE Professional School. Description: A continuation of CHE 4002. Primary reaction and mass transfer processes. Credit hours: 2 Contact hours: Lab: 4 Levels: Graduate, Undergraduate Schedule types: Lab Department/School: Chemical Engineering CHE 4124 Chemical Engineering Design I Prerequisites: CHE 3113, CHE 3123, CHE 4002, and admission to CHE Professional School. Description: Economic analysis of process plants and systems of equipment; methods for estimating plant investment requirements and operating costs; economic evaluation and optimal design of chemical process systems; basic equipment and process design calculations. Credit hours: 4

Contact hours: Lecture: 3 Lab: 2 Levels: Graduate, Undergraduate Schedule types: Lab, Lecture, Combined lecture and lab Department/School: Chemical Engineering

Levels: Undergraduate Schedule types: Lecture Department/School: Chemical Engineering