Chemical engineers must learn to connect concepts across vastly different scales, spanning from molecular structures to industrial processes. Here, we explore the use of a virtual-reality simulation with a companion video of an experiment to help undergraduate students connect nanoscale fundamentals to macroscale engineering observations.

The authors develop an educational simulation game for basic vapour-liquid equilibrium (VLE) to use in chemical engineering education, basing the design on educational guidelines from the active learning literature. The game is tested in three cohorts totalling 84 students, showing significant increase in a knowledge test of VLE, and positive…

The benefits of using Microsoft Excel built-in functions in an undergraduate Multistage Separations course are analyzed based on 15 years of experience teaching mass transfer in Chemical Engineering programs at both the Bachelor's and Master's levels. Eight reasons for using spreadsheets in a Mass Transfer virtual course are given. Through the…

Virtual Reality (VR) games and simulations are increasingly being used to provide highly interactive, engaging and contextual learning experiences for learners in otherwise risk-prone environments, such as those obtained in chemical engineering and industrial domains. Understanding the intention of users towards this technology for education and…

Engineering education is facing major challenges as it seeks to provide necessary and robust practical experience for all its undergraduate students. The limitation of resources (capital and operational), the increasing number of engineering students and the need to provide safe, up-to-date laboratory experiences have become global issues.…

A virtual catalytic reactor laboratory (VCRL) experiment, which can be used in most browsers, is described. Students select feed conditions and use the VCRL to take data for a gas-phase catalytic reaction and fit kinetic parameters to a Langmuir-Hinshelwood rate expression. The VCRL contains instructions, equipment descriptions, an animated…

The transformation of the chemical engineering profession is occurring in response to the industry needs of the rapidly-developing bioeconomy and biosector across Europe. To meet these requirements, a new Biotechnology and Bioprocessing module has been designed and offered to Chemical Engineering undergraduates at Aston University, UK. This module…

Simulation software has experienced growing interest in chemical engineering curriculums for its usage in commercial engineering practices. This article describes the ASPEN Plus® version 10 (V10) simulations and a student teach students approach to integrate ASPEN in the chemical engineering curriculum at the University of Kansas (KU). Videos,…

Two 20-h modelling-based workshops focused on the explanation of thermally activated phenomena were held at the University of Palermo, Italy, during the Academic Year 2014-2015. One of them was conducted by applying an inquiry-based approach, while the other, still based on laboratory and modelling activities, was not focused on inquiry.…

Most undergraduate mass transfer and separation courses cover the design of distillation columns, and many undergraduate laboratories have distillation experiments. In many cases, the treatment is restricted to simple column configurations and simplifying assumptions are made so as to convey only the basic concepts. In industry, the analysis of a…

For decades, every chemical engineer has been asked to have a background in separations. The required separations course can, however, be uninspiring and superficial because understanding many separation processes involves conventional graphical methods and commercial process simulators. We utilize simple, user-­friendly mathematical software,…