Shows how a problem from engineering thermodynamics is used to teach process design. Advantages of using this method are noted. (JN)

Describes an experimental program to examine flow curve determination for non-Newtonian fluids. Includes apparatus used (a modification of Walawender and Chen's set-up, but using a 50cc buret connected to a glass capillary through a Tygon tube), theoretical information, procedures, and typical results obtained. (JN)

Highlights findings from the National Science Foundation's "1982 Postcensal Survey of Natural and Social Scientists and Engineers." Indicates that, from 1972 to 1982, employment of scientists and engineers increased 4 percent per year. However, these employment gains do not reflect the picture for chemists or chemical engineers. (JN)

Describes a year-long graduate plant design course. The course provides students with an appreciation of the profit motive that drives business activity, the role of the chemical engineer in achieving this goal, and historical and contemporary perspectives on chemical engineering practice. (JN)

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)

Provides: (1) a glossary of terms used in biochemical engineering; (2) a list of key developments in the field; and (3) emphases placed in 15 topic areas in a course restructured on the basis of these developments. Topic areas include enzyme kinetics/applications, genetics and microbial control, transport phenomena, and others. (JN)

A one-month graduate course on time series analysis is offered in the department of chemical engineering at the University of Queensland (Australia). Describes the course, which is based on an interactive graphics time series identification and modelling computer package (TSIM). Also describes time-series analysis procedure and the TSIM package.…

Discusses the basic computer-oriented skills needed by chemical engineering graduates, suggesting that these skills be introduced and reinforced throughout the chemical engineering curriculum. Issues related to programming and scientific computation are noted. (JN)

University of California's (Berkeley) chemical engineering department developed an in-house course as a prerequisite to senior laboratory (where students must write reports and make oral presentations). The course, which focuses on technical communication skills, is described, with special reference to instructional strategies used and structure…

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)

Describes a semester-long project in which students designed, built, and operated an apparatus to separate particles by fluidization principles. Each laboratory group worked on a separate step of the design in a sequence selected by the instructor in a manner similar to the way a design team might function. (JN)

Describes a drying experiment useful in presenting the concept of simultaneous heat and mass transfer. Background information, equipment requirements, experimental procedures, and results are provided. The reasonably good agreement in the calculated rate of drying and that observed experimentally makes students feel confident in applying…

Discusses how basic thermodynamics concepts are integrated with design problems. Includes course goals, instructional strategies, and major advantages/disadvantages of the integrated design approach. Advantages include making subject more concrete, emphasizing interrelation of variables, and reinforcing concepts by use in design analysis; whereas…

Describes a novel approach to laboratory teaching that provides students with a learning environment which allows them to develop advanced experimental skills that are necessary for success in research and development environments. (DKM)

Presents the Chem-E-Car competition in which students build a small car powered by a chemical reaction. Focuses on a controlled chemical reaction in which the car travels a required specific distance and stops. Requires participants to prepare poster presentations. (YDS)