Project-based learning for an online course of simulation engineering: From bioreactor to epidemiological modeling

• Published in: Education for chemical engineers Vol. 42; pp. 68 - 79
• Main Authors: Salazar-Peña, R., Pedroza-Toscano, M.A., López-Cuenca, S., Zárate-Navarro, M.A.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.01.2023
• Subjects: Biochemical Engineering; COVID-19; Distance Learning; Modeling and simulation; Multidisciplinary learning; Project-based learning; COVID-19; Modeling and simulation; Distance Learning; Multidisciplinary learning; Biochemical Engineering; Project-based learning
• ISSN: 1749-7728; 1749-7728
• DOI: 10.1016/j.ece.2022.12.002

Before the pandemic, distance learning was not a widely adopted option for science and engineering programs where in some courses, such as chemistry, electromagnetism, or fluid mechanics, etc., attending to laboratories and workshops was in most cases mandatory. The lockdown forced us to innovate, searching alternative ways to teach experimental phenomena, suddenly replaced with simulation science and technology, subjects that although rely on computers, also suffered changes from the transition. In this contribution, we propose an undergraduate course on simulation for chemical engineering, departing from the fact that modeling, and simulation are multipurpose and multidisciplinary tools. The course aims to reinforce the concepts of dynamical systems by using analogies between process engineering examples and other disciplines, particularly, epidemiology. For this purpose, a final project on modeling the dynamics of the COVID 19 pandemic in Mexico was designed and validated with a public database from the Mexican Secretariat of Health. By doing this, the students got in touch with the evolution of the dynamics outside of school hours, since it was common to see weekly updates and extrapolation trends of the pandemic, thus applying their skills to the final project. It was found that success factors were the use of official data, the use of Graphical User Interfaces to explore diverse simulation scenarios and the final project. The transition to the Distance Learning faced several challenges that were partially coped with the redesign of the course. •Chemical engineers’ skills can be useful in epidemiological modeling.•Analogies between dynamical models may find solutions in different STEM fields.•Future chemical engineers can collaborate in multidisciplinary teams.•Distance learning allows to innovate analyzing current events such as COVID-19 pandemic.