The practical scenarios discussed in a chemistry or chemical engineering course that use solid or liquid reactants are presented. Important ideas to be considered when handling pressurized fluids are provided and three typical examples are described to enable students develop secondary skills such as the selective search of data, identification of…

This paper addresses the difficulty of transferring conceptual knowledge of chemical processes to students, and how it can be aided through the use of analogies. Common everyday observations and objects are used to illustrate how a physical or chemical change takes place. It was found that this approach greatly assisted the understanding of…

What goes into teaching a tissue engineering course in a chemical engineering or bioengineering department? Developing any new course presents numerous challenges such as topics to cover, textbook selection, and types of assignments to give. Additionally, in an area such as tissue engineering where the technology is constantly evolving, the course…

A reaction kinetics experiment for the chemical engineering undergraduate laboratory course was developed in which in-situ Fourier Transfer Infrared spectroscopy was used to measure reactant and product concentrations. The kinetics of the hydrolysis of acetic anhydride was determined by experiments carried out in a batch reactor. The results…

An established methodology involving the sequential presentation of five skills on ASPEN Plus to undergraduate seniors majoring in ChE is presented in this document: (1) specifying unit operations; (2) manipulating physical properties; (3) accessing variables; (4) specifying nonstandard components; and (5) applying advanced features. This…

A graduate-level computational chemistry course was designed and developed and carried out in the Department of Chemical Engineering at Worcester Polytechnic Institute in the Fall of 2005. The thrust of the course was a reaction assignment that led students through a series of steps, beginning with energetic predictions based upon fundamental…

The demonstration of a simple viscosity experiment for high school classes was conducted and assessed. The purpose of the demonstration was to elicit the interest of high school juniors and seniors in the field of chemical engineering. The demonstration consisted of a discussion on both engineering and the concept of viscosity as well as a…

The material in this guide covers areas important to the chemical industries. Topics such as heat and mass transfer, plastics, polymers, fluid flow, and process engineering are included. This document is a survey of information sources in chemical engineering and is intended to identify those core resources which can help engineers and librarians…

Explains the advantages of using molar quantities in chemical reactor design. Advocates the use of differential versions of reactor mass balances rather than the integrated forms. Provides specific examples and cases to illustrate the principles. (ML)

The use of case studies for training in problem solving in a Scottish chemical engineering program is outlined, and problems in assessing both changes in student behavior and the quality of the learning experience are examined. (MSE)

Provides details on career opportunities for chemical professionals, considering (in separate sections): (1) career advancement; (2) demand for chemical professionals; (3) salaries; and (4) career planning. Also provides advice to scientists and engineers who are striving to move into management positions. (JN)

Describes an experiment in which a microcomputer was programed to function as a transfer function analyzer to investigate the dynamics of stirred vessels. The main objective of the experiment is to illustrate the theory and application of the pulse test (a method of determining the transfer function of a process). (JN)

Explored the adoption of 17 projects by industry and whether the origin of the research ideas was a significant factor. Projects were either initiated by industry alone, by universities alone, or by universities with input from industry from the earliest stages of the research. (JN)

Describes an easily constructed, small laboratory computer that can be programed in BASIC. The computer is easy to use with analog to digital and digital to analog converters so that it can serve as a control or data logging computer. (Author/JN)

Examines current uses and future possibilities of computer graphics in chemical engineering, discussing equipment needs, maintenance/manpower costs, and plan to implement computer graphics into existing programs. The plan involves matching fund equipment grants, grants for development of computer assisted instructional (CAI) software, chemical…