This paper describes the combination of problem-based learning (PBL) and simulation tools in the chemical engineering unit operation laboratory course, focusing on heat transfer concepts using a shell-and-tube heat exchanger experiment. This approach has significantly enhanced student learning outcomes by bridging theory with practice, fostering a…

Molecular-, fluid- and field-dynamics simulation are becoming more mainstream tools for practicing process engineers; here, the academic community needs to pay close attention to "upskilling" demands from industry, where remote working/training emphasizes the need for sophisticated computational-engineering design tools with molecular…

We redesigned our undergraduate laboratories to create a structured sequence that continuously improves the learning experience of students. We utilized a PBL and PjBL approach in which students are progressively introduced to ill-structured open-ended problems, the development of projects, and the creation of research products. We dynamically…

A unit operations laboratory course was significantly modified to be an open-ended problem-based experience with an emphasis on teamwork and communication skills. Students were surveyed to assess gains in engineering self-efficacy as well as to indicate which course structure components were most beneficial to learning. Students showed significant…

Typically the material and energy balance (MEB) course is taught at a freshman or sophomore level. Success in this early course is generally believed to be a metric for future success within the chemical engineering curriculum. However, the complexities and dynamics of the course stem from not only the difficulty of the subject matter, but also…