Tools for Embedding and Assessing Sustainable Development Goals in Engineering Education

1. Fermín Sánchez-Carracedo ¹
2. Jordi Segalas ¹
3. Pere Busquets ²
4. Joan Climent ¹
5. Victor G. Galofré ¹
6. Boris Lazzarini ¹
7. David Lopez ²
8. Carme Martín ¹
9. Bárbara Sureda ¹
10. Gemma Tejedor ¹
11. Eva Vidal ¹
12. Gorka Bueno ³
13. Estíbaliz Sáez de Cámara ³
14. Rafael Miñano ⁴

Exportar

Exportar

×

MLA

modern-language-association

APA

apa

Chicago

chicago-fullnote-bibliography

Harvard

harvard-cite-them-right

Vancouver

vancouver-author-date

---

RIS BibTex

Exportar

×

El documento no se puede exportar porque pertenece a otro portal.

Texto completo

lock_openTexto completo externo

DIALNET GOOGLE SCHOLAR lock_openAcceso abierto editor

Otras publicaciones en: Actas de las Jornadas sobre la Enseñanza Universitaria de la Informática (JENUI)

Resumen

This paper presents three tools developed within the framework of the project EDINSOST2-SDG, aimed at embedding and assessing the Education for Sustainable Development (ESD) in Engineering curricula. ESD is promoted through the introduction into engineering curricula of learning outcomes related to sustainability and, specifically, to the Sustainable Development Goals (SDG). The first tool, the ‘Engineering Sustainability Map’, contains ESD-related learning outcomes that any engineering student should have acquired upon completion of their studies. These learning outcomes are described according to four sustainability competencies: (1) Critical contextualization of knowledge, (2) Sustainable use of resources, (3) Participation in community processes, and (4) Application of ethical principles. The second tool, the ‘Sustainability Presence Map’ of a degree, shows the percentage of the presence in the curriculum of each sustainability competency. The calculation of the presence of each competency is based upon the effective integration of the related learning outcomes in a specific curriculum. Respective data are provided by teachers responsible for the coordination of the different subjects of the degree, collected through a questionnaire. The third tool presented is a questionnaire aimed at measuring the level of ESD that students perceive they have acquired through each competency. The comparison of data resulting from the Sustainability Presence Map with the data from the student questionnaire allows to determine the effectiveness of embedding ESD in a degree. The three tools presented in this work have undergone a validation process and are currently being used in a set of engineering degrees related to the EDINSOST2-SDG project. The results of the application of these tools is part of the future research work of the authors.

Fuente de los datos: Dialnet