Computational notebooks are an increasingly common tool used to support student learning in a variety of contexts where computer programming can be applied. These notebooks provide an easily distributable method of displaying text and images, as well as sections of computer code that can be manipulated and run in real-time. This format allows…

A survey of faculty teaching the chemical reaction engineering course or sequence during the 2009-2010 academic year at chemical engineering programs in the United States and Canada reveals change in terms of content, timing, and approaches to teaching. The report consists of two parts: first, a statistical and demographic characterization of the…

An overview of a course on modeling and simulation offered at the Nanotechnology Engineering undergraduate program at the University of Waterloo. The motivation for having this course in the undergraduate nanotechnology curriculum, the course structure, and its learning objectives are discussed. Further, one of the computational laboratories…

The commercial simulator Aspen Chromatography was employed to study and optimize an important new industrial separation process, weak partitioning chromatography. This case study on antibody purification was implemented in a chromatographic separations course. Parametric simulations were performed to investigate the effect of operating parameters…

An implementation and assessment of three creative-learning mechanisms in a research-inspired split undergraduate/graduate course in Analytical Microdevice Technology is described. Microscale research is challenging to incorporate into the classroom due to the phenomena length-scales and the creating learning strategies were used to promote…

This two-part series describes the structure of the stoichiometry course at North Carolina State University. The course had a variety of learning objectives, and several nontraditional pedagogies were used in the course delivery. The first paper outlined the course structure and policies, the preparation given to the teaching assistants who played…

Describes a course designed to achieve a balance between exposing students to (1) advanced topics in transport phenomena, pointing out similarities and differences between three transfer processes and (2) common methods of solving differential equations. (JN)

First year chemical engineering students are required to take a two-semester sequence in applied mathematics at the University of Pennsylvania, with the option of taking a third semester elective course. The content of the courses and the approaches used are discussed. A list of textbooks used is also provided. (JN)

Provides an overview of a course, "Applied Linear Algebra," for teaching the concepts and the physical and geometric interpretations of some linear algebra topics. Describes the philosophy of the course, the computer project assignments, and student feedback. Major topics of the course are listed. (YP)

Describes a course for teaching chemical engineering students about safety and hazards. Summarizes the course content including topics for term papers and disciplines related to this course. Lists 18 references. (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…

Presents a synopsis of four lectures given in an elective senior-level electronic material processing course to introduce solid state electronics. Provides comparisons of a large scale chemical processing plant and an integrated circuit. (YP)

Discusses chemical vapor deposition epitaxy on patternless and patterned substrates for an electronic materials processing course. Describes the processs types and features of epitaxy. Presents some potential problems of epitaxy. Lists 38 references. (YP)

Gives an overview of a course in chemical engineering entitled "Cellular Bioengineering," dealing with how chemical engineering principles can be applied to molecular cell biology. Topics used are listed and some key references are discussed. Listed are 85 references. (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)