This work aims to demonstrate the use of Excel spreadsheets for solving L-L extraction problems. The key to solving the problems successfully is to be able to determine a tie line on the ternary diagram where the calculation must be carried out. This enables the reader to analyze the extraction process starting with a simple operation, the…

Mobile platforms and cloud computing allow collaborative sharing and submission of work in ways not feasible until recently. In this article, we detail how we took a writing-intensive laboratory and made the submission, reading, grading, and returning of student work online and paper-free, while maintaining familiar elements of pen-and-paper…

Introductions of computer-aided software and simulators are implemented during the sophomore-year of the chemical engineering (ChE) curriculum at the American University of Sharjah (AUS). Our faculty concurs that software integration within the curriculum is beneficial to our students, as evidenced by the positive feedback received from industry…

This paper deals with the use of commercial CFD software in teaching graduate level computational fluid dynamics. FLUENT 6.3.26 was chosen as the CFD software to teach students the entire CFD process in a single course. The course objective is to help students to learn CFD, use it in some practical problems and analyze as well as validate the…

Microfluidics, the manipulation of fluids in channels with micron dimensions, has emerged as an exciting new field that impacts the broad area of nano/microtechnology. This is an important area to train the next generation of chemical engineers. This paper describes an experiment where students are given a problem to design a microfluidic mixer…

Personalized, online homework was used to supplement textbook homework, quizzes, and exams for one section of a course in material and energy balances. The objective of this study was to test the hypothesis that students using personalized, online homework earned better grades in the course. The online homework system asks the same questions of…

The instructional design and the corresponding research on student learning of two virtual laboratories that provide an engineering task situated in an industrial context are described. In this problem-based learning environment, data are generated dynamically based on each student team's distinct choices of reactor parameters and measurements.…

This paper describes the use of weblabs--web based experiments--for cooperative learning by students working together from two different locations to conduct experiments and write reports.

YouTube Fridays is a teaching tool that devotes the first five minutes of class each Friday to a YouTube video related to the course. Students select the videos, which expand the class's educational content in courses such as thermodynamics and material and energy balances. From assessments of two pilot studies using YouTube Fridays in Chemical…

We show a new approach, based on the utilization of Matlab and Mathematica, for solving liquid-liquid extraction and binary distillation problems. In addition, the author shares his experience using these two softwares to teach equilibrium staged separations at the National Institute of Applied Sciences and Technology. (Contains 7 figures.)

Investigates the effectiveness of computer-assisted instruction in the chemical engineering curriculum. Explains how chemical process simulators can be successfully implemented into courses. (YDS)

Describes three computer software programs implemented in the chemical engineering curriculum at the University of Bahrain and explains students' evaluations of the usefulness and effectiveness of the software packages. Programs include Control Station (CS), HYSYS, and MATHCAD. (YDS)

Traces the evolution of instructional computing in the design and control courses. Discusses process design, process control, and expert systems. Concludes that the computing tools for undergraduate instruction are mostly in step with design and control practice in chemical engineering. (CW)

Describes a course in biochemical engineering fundamentals which relies heavily on the use of personal computers. The computers are used with interactive tutorials, problems that require computer simulations of differential equations, and homework assignments. A list of computer assignments and student term projects is included. (TW)