Problem solving in chemical kinetics poses substantial challenges for university students since it often involves significant use of mathematics as a tool and language, with challenging translations and transitions between chemical phenomena and mathematical representations. In this paper, we present key findings from a study investigating…

While innovation commonly stems from the Entrepreneurial Mindset (EM), its integration within chemical engineering curricula has been notably limited. However, a shift is occurring as both private and public initiatives are now directing resources and attention toward equipping students for prosperous careers. This paper delineates the successful…

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.

There is widespread concern that students are increasingly becoming passive consumers of education who primarily attend university to obtain the credentials they need for the labour market. To interrogate this view, a longitudinal qualitative study examined what 47 students in three countries wanted to get out of studying for their degree (their…

This study explores the effects of a computer algebra system on students' mathematical thinking. Mathematical thinking is identified with mathematical thinking powers and structures. We define mathematical thinking as students' capacity to specialize and generalize their previous knowledge to solve new mathematical problems. The study was…

The effect of digital tools (pre-lab videos and 3D models of experimental equipment) on student's performance of a typical lab assignment was studied quantitatively; for some students, these digital tools replaced physical access to the equipment. These students also participated in focus groups and gave good suggestions to make the digital tools…

A teaching module for HAZOPs is presented here that was included in the capstone subject. The module included a lecture, class exercise and an advisors' led workshop. Some students undertake HAZOPs individually, representing academic misconduct. A verification strategy, based on Zipf's law, is presented that analyses word frequency and key words…

Breadth subjects enable students to explore topics that are outside their core degree discipline and can be used to promote chemical engineering to non-engineering students. A breadth subject was created to be welcoming to all students, that presented energy issues through a chemical engineering context. Contact was through lectures, flipped…

Debates about the employability of graduates in policy and research have increasingly focused on graduates' employment outcomes and the development of generic employability skills. This suggests that the knowledge that students engage with in their degrees is far less important than the generic attributes they develop, which promotes a…

We present a two-week active learning chemical engineering hackathon event specifically designed to teach undergraduate chemical engineering students of any skill level data science through Python and directly apply this knowledge to a real problem provided by industry. The event is free and optional to the students. We use self-evaluation surveys…

Chemical engineering students are typically required to take biology courses and many pursue biotechnology related careers. However, it is unknown what emotions students have toward biology that can influence curricular design. We surveyed 246 students and found that 74.6% have overall positive emotions toward biology because they find biology…

While students can learn both chemistry content and inquiry practices by participating in course-based undergraduate research experiences (CUREs), it is well documented that prior experiences shape perception. We conducted a case study to investigate students' first experiences with a CURE in an upper-division chemical engineering laboratory…

We explored chemical engineering students' approaches to learning, study-related burnout, and perceptions of peer and self-assessment in a challenging physical chemistry thermodynamics course. Cluster analysis revealed three learning profiles based on students' approaches to learning: students who scored high in both organised studying and the…

Industrial and academic laboratories are undergoing a paradigm shift in process technology from batch to modular flow. Implementation of modular flow processes can enable more efficient operation with superior throughput, scalability, and safety factors owing to superior transport and reaction kinetics. However, both fine chemical and…

In our chemical engineering curricula, students may enroll in introductory thermodynamics as a prerequisite to or as a corequisite with material and energy balances (MEB). We sought to determine why students enrolled in these courses in a given sequence whether it impacts performance. Students' enrollment decisions were mostly based on logistics…