The course focuses on engineering's role in commercialization of vaccines and biologics. Biologics are more complex than small molecule drug products. This course includes an overview of vaccines and biologics from historical context, product, process and analytical technologies, immunology, clinical, regulatory and ethical considerations, economics, risk mitigation, and impact on human health. Prerequisites: 4th year in CHE or BME

Introduces the fundamental principles of tissue engineering. Topics: tissue organization and dynamics, cell and tissue characterization, cell-matrix interactions, transport processes in engineered tissues, biomaterials and biological interfaces, stem cells and interacting cell fate processes, and tissue engineering methods. Prerequisites: CHEM 1620, APMA 2130, and an introductory course in cell and molecular biology or instructor permission.

Combining chemical engineering unit operations to create complete manufacturing processes, including safety, environmental, and economic considerations. Modeling processes using commercial simulation software. Analysis and design of control systems for chemical plants. Three lecture hours. Prerequisite: CHE 3318 and CHE 3322; Corequisite CHE 4475

Special Topics in CHE

Understanding hazards and risk in a chemical process, managing risk by providing the appropriate layers of protection to reduce the frequency and severity of incidents, and learning from incidents when they happen. Introduction to the engineering and industry concepts.This course is an introduction to the engineering and industry concepts. One lecture hour. Prerequisites: CHE 3318 and CHE 3322. Co-requisite: CHE 4474

This course will cover the fundamentals of Process Safety. We will apply chemical engineering fundamentals to identify various hazards within chemical processes and will assess the risks associated with these hazards. This course will also cover the process design approaches and other commonly adopted industry practices used to mitigate, control and/or manage risks associated with chemical processes. Prerequisites: Chemical Engineering graduate student

Analyzes the mechanisms and kinetics of various polymerization reactions; relations between the molecular structure and polymer properties, and how these properties can be influenced by the polymerization process; fundamental concepts of polymer solution and melt rheology. Applications to polymer processing operations, such as extrusion, molding, and fiber spinning. Three lecture hours. Prerequisite: CHE 3321 or instructor permission.

The course provides practical instruction on the conduct of research at UVa. Students will be introduced to such topics as research infrastructure, responsible conduct of research, laboratory safety, time management, data management, literature searching methods, critical reviewing of the scientific literature, writing research proposals, and presenting scientific research findings.

Advanced study of reacting systems, such as experimental methods, heterogeneous catalysis, polymerization kinetics, kinetics of complex reactions, reactor stability, and optimization. Prerequisite: CHE 6618 or instructor permission.

Library and laboratory study of an engineering or manufacturing problem conducted in close consultation with a departmental faculty member, often including the design, construction, and operation of laboratory scale equipment. Requires progress reports and a comprehensive written report. Prerequisite: Instructor permission.