Discusses current problems in chemical engineering education at the University of Queensland (including those related to the laboratory, student/staff ration, literacy, motivation, course content, and structural changes). Also describes a proposed plan of the Queensland department to implement a scheme for resource-based education in chemical…

Presents a critique of existing methodology used in curriculum updates in academic institutions, suggesting that an integrated approach is more realistic and meaningful to study and to bridging the gap between academic curriculum and industry's needs. Specifically recommends that curriculum-related and job-related data be analyzed simultaneously.…

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…

Described is a graduate level engineering course offered at the University of Southern California on coal liquefaction processes. Lecture topics and course requirements are discussed. A 64-item bibliography of papers used in place of a textbook is included. (BT)

This is a summary of a seminar for changing the undergraduate chemical engineering curriculum in India. Identifies and describes biotechnology, materials for structural and microelectronic catalysis, and new separation processes as emerging areas. Evaluates the current curriculum, including basic science, engineering lore, chemical engineering,…

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.…

Described is a doctorate level elective course in chemical engineering economics offered at the University of Tennessee. Students, working in pairs as a project team, must apply their knowledge of basic economics to the solution of a research question or problem. (BT)

Described is a series of four graduate level courses in polymer science, offered or currently in preparation, at Stanford University. Course descriptions and a list of required and recommended texts are included. Detailed course outlines for two of the courses are presented. (BT)

Described is a graduate course in catalysis offered at Penn State University. A detailed course outline with 30 lecture topics is presented. A list of 42 references on catalysis used in place of a textbook is provided. (BT)

Described is a graduate level engineering course on functional analysis offered at Purdue University. The course restricts itself to linear problems, specifically analysis of linear operators on vector spaces. Key applications in the course demonstrating the utility of abstract formulations are presented. (BT)

Described is a graduate level engineering course offered at Princeton University in colloidal phenomena stressing the physical and dynamical side of colloid science. The course outline, reading list, and requirements are presented. (BT)

Described is a two-semester, first year graduate level course offered at the University of Notre Dame on mathematical methods in chemical engineering. An unusual characteristic of the course is that the lectures are given on transparencies shown by an overhead projector, the students receiving printed copies of the transparencies. (BT)

Described is the first quarter of a three quarter graduate course for the general engineering student on the molecular theory of thermodynamics and transport phenomena at the University of Minnesota. Three sections from the course, considered to exemplify its spirit and substance, are presented. (BT)

A set of educational materials that have been developed which deal with chemical engineering applications in emerging technologies is described. The organization and the content of the supplemental textbook materials and how they can be integrated into an undergraduate reaction engineering course are discussed. (KR)

Described is a graduate course in the process control curriculum at the University of Wisconsin that integrates real-time computing into process control teaching. Lecture topics and recent graduate laboratory projects are presented. (BT)