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)

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)

Addresses some of the issues associated with teaching chemical engineering design, specifically the capstone design sequence developed at the University of Dayton and the experience gained developing and teaching these courses. Discusses the pros and cons of chemical-process flowsheet-simulator use. (Contains 11 references.) (WRM)

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 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 a course designed to expose neophytes to methodology used in chemical process industries to evaluate commercial feasibility of proposed projects. Previously acquired disciplines are integrated to facilitate process synthesis, gain appreciation of nature of industrial projects and industrial viewpoint in managing them, and to become adept…