Robust and fast methods for chemical or multiphase equilibrium calculation are routinely needed by chemical-process engineers working on sizing or simulation aspects. Yet, while industrial applications essentially require calculation tools capable of discriminating between stable and nonstable states and converging to nontrivial solutions,…

A homework assignment is outlined in which students learn Computational Fluid Dynamics (CFD) concepts of discretization, numerical stability and accuracy, and verification in a hands-on manner by solving physically realistic problems of practical interest to engineers. The students solve a transient-diffusion problem numerically using the common…

We review the concept of uncertainty for thermophysical properties and its critical impact for engineering applications in the core courses of chemical engineering education. To facilitate the translation of developments to engineering education, we employ NIST Web Thermo Tables to furnish properties data with their associated expanded…

The University of Texas at Austin has developed an upper-division undergraduate laboratory called "NANOLAB" to introduce undergraduate science and engineering students to nanoscale science and engineering (NSE) concepts. The NANOLAB is not a stand-alone course offered by a specific department, but rather a laboratory station--or hub--that…

The Multimedia Education Laboratory of the Chemical Engineering Department at the University of Michigan develops multimedia-based educational materials presenting difficult concepts and chemical engineering processes. Highlights include software developed for undergraduate courses; the Multimedia Encyclopedia of Chemical Engineering Equipment;…