Applied engineering education for soft skills in the context of sustainability and mobility
In: International journal of sustainability in higher education, Band 23, Heft 8, S. 324-336
ISSN: 1758-6739
Purpose
The purpose of this paper is to address the need to rethink the traditional approach to education in the university engineering curriculum. The paper examines two engineering projects led by university students in Sweden: the design and construction of a solar-powered car taking part in the Bridgestone World Solar Challenge and the creation of a business model for the ownership phase of an electric car together with Polestar.
Design/methodology/approach
An extensive literature review was conducted. Students were interviewed and surveyed on their impressions of their learning experience in the two projects and student logbooks reviewed. Problem-based learning (PBL), the Conceiving, Designing, Implementing and Operating approach and the ABCD procedure are used. Results are compared to theories from the literature.
Findings
PBL in real-world settings can increase engineering students' technical knowledge and improve their technical skills as they solve complex problems or propose solutions to such problems. Such projects also strengthen students' commitment, self-confidence and self-esteem as well as promote co-operation and creativity. These are soft skills largely absent from traditional engineering education.
Practical implications
Innovative, student-led learning in the applied engineering curriculum can foster students' soft skills in ways that teacher-led, lecture-style learning does not.
Originality/value
This research offers a timely perspective on an issue of current interest in engineering education: student-led learning versus teacher-led learning. The paper also provides two illustrative student-led projects that focus on sustainability and mobility.