Purpose: The purpose of this paper is to show how industrial ecology can facilitate the achievement of sustainable development through its incorporation into an engineering curriculum. Design/methodology/approach: A model has been developed for assessing sustainability learning outcomes due to the incorporation of the concept of industrial ecology…

Purpose: Considering the relevance of education for sustainable development (SD) to enhancing engineers' abilities to contribute towards sustainability-related issues, this study aims to help understand the global context of the insertion of SD into engineering education and to provide guidelines to further evolve research and efforts towards…

Engineering education for sustainable design often focuses on technical solutions with little consideration of social impact. This paper presents a case study of a project-based learning (PBL) studio course engaging engineering students in social and sustainable design practices with external clients in developing economies. The case is a review…

Purpose: The purpose of this study is to address the challenges of teaching sustainable development to computer engineering students. Part of the problem is that they perceive the topic as irrelevant for their future profession. Design/methodology/approach: To address this challenge, we introduced a project element into a course on sustainable…

To build a sustainable future, science and engineering education programmes should emphasise scientific investigation, collaboration across traditional science topics and disciplines, and engineering design, including design and evaluation of solutions. While some research studies articulate the shifts that are needed to realise classroom learning…

In order to meet the challenges of sustainable development, our approach to education must be modified to equip students to evaluate alternatives and devise solutions that meet multi-faceted requirements. In 2009, faculty in the Departments of Civil, Industrial and Mechanical Engineering at the University of Texas at Arlington began implementation…

There are well-documented justice-related issues in engineering education. How do teachers begin to develop a way of seeing forward in their teaching, both in how they understand their role and their hoped-for outcomes for students, in ways that bridge the goals of justice with required engineering disciplinary expectations? In this manuscript, we…

Purpose: The study aims to shed light on the role of university support (US), environmental concern (EC) and Sustainable Development Goal knowledge (SDGK) in forming students' intention (SI) to engage in sustainability-driven entrepreneurship. The authors attempted to blend the theory of planned behaviour (TPB) and social cognitive career theory…

Purpose: The paper aims to examine the current status and development of sustainable development in Finnish engineering education. Design/methodology/approach: The study consists of interviews with key stakeholders supplemented with the analysis of documented material. Development is discussed in relation to the findings of collaborative strategy…

Transfer students face many challenges integrating into a 4-year college that affect their retention and success, yet very little research has documented how to create wraparound programming to support them. There remains a need to establish retention models that are adaptable and can serve a variety of students and institutions. The Learning…

Purpose: This paper aims to deal with the skills for sustainable development in engineering courses. The main objective is to identify which competences should be developed in these courses to contribute to the resolution of conflicts related to sustainability, as well as the means used by universities for their development.…

While issues of (in)justice in K12 STEM learning have garnered increasing attention, limited research has attended to learning as "social-spatial transformation." We draw upon a justice-oriented framework of equitably consequential learning to call attention to how learning and engagement in K12 STEM is rooted in the history and…

Systems thinking, interdisciplinary research projects, and creative problem solving are ways to frame modern chemistry curricula to inspire the next generation of scientists, engineers, teachers, and citizens to use their skills and education to create a sustainable future. By integrating planetary boundaries, green chemistry, and the UN…

Universities are preparing future professionals to face real problems. Sustainable development is a challenge that requires particular attention from educational programs. In their profession, civil engineers address many decisions that can compromise the sustainability of infrastructure. This paper proposes a sustainable decision-making module to…

Embedding sustainability into pedagogical approaches is a key priority in higher education. Equipping students with knowledge, understanding, and skills, and developing the next generation of innovators and leaders, can potentially provide the change needed and create a real impact in the journey to a sustainable future. Advancement in Science,…