Explores the inclusion of risk reduction, as it relates to the handling of hazardous materials, within the chemical engineering curriculum and current teaching efforts on this topic at the University of Louisville. Includes common course outlines, selected textbooks and other required materials, guest lecture list by topic, and examples of…

Describes an effective early stage computing course that provides skills needed by undergraduate chemical engineering students. Material is presented in forms that allow students to follow the logic involved and to understand relationships between the computer, programming, numerical computing, computing software packages, and practical skills for…

Describes an undergraduate course in chemical engineering that details the technology of immobilized enzymes and cells. Includes the course rationale and purpose; the course outline when offered as an engineering elective in the biotechnology area; and discussion of appropriate text, selected real-world applications, and laboratory presentations.…

Discusses several options for the incorporation of minimal coursework involving engineering ethics into an already tightly packed curriculum. Topics include integration versus the stand-alone approach; timeliness of course addition; outline of course content and instructional format; students' reflections and instructor's musings; and an annotated…

Presents the framework for a chemical engineering course using ordinary differential equations to solve problems with the underlying strategy of concisely discussing the theory behind each solution technique without extensions to formal proofs. Includes typical class illustrations, student responses to this strategy, and reaction of the…

Proposes that inclusion of waste water treatment subjects within the chemical engineering curriculum can provide students with direct access to environmental issues from both a biotechnological and an ethical perspective. The descriptive details of water recycling at a copper plant and waste water stabilization ponds exemplify this approach from…

Introduces some ideas on teaching scaleup in chemical engineering. Discusses the instructional modes and the general and specific topics. Provides two examples of an experiment with equipment and safety issues. Shows the list of actual individual and team projects in an appendix. (YP)

Described is a heterogeneous catalysis course which has elements of materials processing embedded in the classical format of catalytic mechanisms and surface chemistry. A course outline and list of examples of recent review papers written by students are provided. (MVL)

Illustrated is the use of spreadsheet programs for implementing finite difference numerical simulations of chromatography as an instructional tool in a separations course. Discussed are differential equations, discretization and integration, spreadsheet development, computer requirements, and typical simulation results. (CW)