We inserted a self-taught molecular modeling project into an otherwise conventional undergraduate chemical-reaction-engineering course. Our objectives were that students should (a) learn with minimal instructor intervention, (b) gain an appreciation for the relationship between molecular structure and, first, macroscopic state functions in…

Undergraduate and graduate engineering training differ significantly. The former looks to established protocols and formulas to design and control processes while the latter often involves questioning established protocols and formulas to better suit and describe phenomena. Although we do not dispute the benefits of practical hands-on approaches,…

A video-based format was used during a graduate seminar course designed to educate students on the nature of catalysis, to help transfer information among students working on similar problems, and to improve communication skills. The mechanics of and student reaction to this seminar course are discussed. (JN)

Describes the design laboratory at the Stevens Institute of Technology (SIT). Considers course objectives, design projects, project structure, mechanical design, project management, and laboratory operation. This laboratory complements SIT's course in process design, giving students a complete design experience. (JN)

Discusses aims, objectives, and content of a safety course for chemical engineering students. Course emphasizes awareness of hazards, basic concepts and principles of safety engineering, and the ability to recognize, assess, and remedy specific risks occurring in chemical plants. Course implementation is also discussed. (JN)

Students complete a project at Ohio University to understand the process of plant design. This and other goals of a plant design course are discussed, including student/instructor presentations and typical problems confronted by the instructors of the course. (JN)

Outlines a graduate course, "Microbial Systems Analysis," for students in chemical and environmental engineering or engineering mechanics, as well as microbiology, ecology and biotechnology. Describes the objectives, structure and laboratory experiments for the course. (YP)

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…

Develops a course which would give students a chance to think critically, be exposed to recent developments including applications to other fields, and be exposed to the general field of the philosophy of science. Provides a course outline, required and referenced textbooks, and selected journal articles. (YP)

Discusses a "process control" course in undergraduate chemical engineering. Describes current practices and philosophy and an outline for a course to be taught in the future. Appended are summaries of 12 participants' discussion. (YP)

Describes an undergraduate chemical engineering course which was designed at North Carolina State University to introduce the experimental side of chemical process technology. The course lectures, experiments, objectives, evaluation and information sources are also discussed. (HM)

Describes an undergraduate chemical engineering course which has been taught by a self-paced instructional method at Howard University, Washington, D.C. The instructional method, course description, and students' grades are also discussed. (HM)

Describes an undergraduate chemical engineering course which has been offered at the Georgia Institute of Technology. The objectives, structure, instructional materials and content of this course, which emphasizes the structure and usage of computer-aided design systems, are also included. (HM)

Describes a chemical engineering course for senior undergraduates and first year graduate students in biochemical engineering. Discusses five experiments used in the course: aseptic techniques, dissolved oxygen measurement, oxygen uptake by yeast, continuous sterilization, and cultivation of microorganisms. (MVL)

Describes an engineering course for graduate study in random media. Summarizes random media as bulk properties of ordered and disordered two-phase materials. Gives course outline for one semester. Topics include: disordered systems, microstructure determination, survey of models, connectivity, and effective properties. (MVL)