Conceptual Modeling Enables Systems Thinking in Sustainable Chemistry and Chemical Engineering

Conceptual Modeling Enables Systems Thinking in Sustainable Chemistry and Chemical Engineering

This study aims to equip students with conceptual modeling skills to address compelling 21st-century challenges in chemistry and chemical engineering education. System-based concept mapping is a critical competence for analyzing global, often complex, problems. We examined how conceptual modeling co...

Full description

Saved in:
Bibliographic Details
Published in:Journal of chemical education Vol. 100; no. 12; pp. 4577 - 4584
Main Authors: Krab-Hüsken, Leonie E., Pei, Linlin, de Vries, Pepijn G., Lindhoud, Saskia, Paulusse, Jos M. J., Jonkheijm, Pascal, Wong, Albert S. Y.
Format: Journal Article
Language:English
Published: Easton American Chemical Society and Division of Chemical Education, Inc 12-12-2023
American Chemical Society
Subjects:
Chemical engineering
Chemistry
Collaborative learning
College students
Concept mapping
Conceptual analysis
Cooperative learning
Design of experiments
Education
Educational Environment
Engineering education
Experimental design
Experiments
Green chemistry
Hypotheses
Learning
Learning environment
Learning outcomes
Modelling
Research design
Skills
Students
Thinking Skills
World problems
First-Year Undergraduate/General
Systems Chemistry
Introductory Chemistry
Chemical Engineering
Conceptual Modeling
Systems Thinking
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This study aims to equip students with conceptual modeling skills to address compelling 21st-century challenges in chemistry and chemical engineering education. System-based concept mapping is a critical competence for analyzing global, often complex, problems. We examined how conceptual modeling could scaffold practical experimental design, transitioning from problem identification to testable hypotheses. We set up a project in which first-year undergraduates in chemical engineering work in groups of 5–6 students. Their task was to develop concrete hypotheses for assignments that center on finding sustainable solutions for polluted environments. A set of educational roles (i.e., lecturers, tutors, learning assistants, educational specialist, and project coordinator) were implemented to ensure that students could accomplish their main learning outcome; that is, to become familiar with the academic way of thinking and apply critical thinking skills as a team. Interviews were conducted after the project was finished and revealed that, while conceptual modeling helped students to structure their ideas (i.e., to learn how to design research questions, incorporate interventions, and test models), developing hypotheses remains a challenging task. Our findings brought us to the recommendations for teaching conceptual modeling in the curriculum rather than at the project level, allowing students to progressively transition from understanding and applying concept mapping in their first year into creating solutions within the context of solving complex real-world problems in the final year of their bachelor’s degree. The collaborative learning environment and project format employed in this work could spark new ways to teach science that facilitates systems thinking in chemistry.
ISSN:0021-9584
1938-1328
DOI:10.1021/acs.jchemed.3c00337