SUSTAINABILITY IN CIVIL ENGINEERING EDUCATION

SUSTAINABILITY IN CIVIL ENGINEERING EDUCATION

T. KALLEL, S. MHADHBI, M. SOUIBGUI (2024).  SUSTAINABILITY IN CIVIL ENGINEERING EDUCATION.

Introducing sustainable development in the academic curriculum of engineers is a necessity related to international objectives. Civil engineering, one of the sectors which uses natural resources and energy, must contribute to search for innovative solutions to reduce the environmental impact of its projects. In addition, the optional standard for engineering education named sustainable development, is attached as an essential competence in the CDIO framework. This paper focuses on the integration of the sustainable development aspect into the civil engineering training at ESPRIT for every level of learning. It first presents the process of integrating sustainable development into the civil engineering curriculum based on CDIO standards. Secondly, we will detail pedagogical approaches and learning tasks used in courses. Finally, we conclude with recommendations and outlooks. This study, which is related to civil engineering education has firstly an important pedagogical impact thanks to the application of the 17 Sustainable development goals built by the United Nations in 2015 to make them a reality. Second, it presents a strong impact on society which is known through the return of professionals and their needs within the framework.

Authors (New): 
Taheni KALLEL
Safa MHADHBI
Meriem SOUIBGUI
Affiliations: 
ESPRIT School of Engineering, Tunisia
Keywords: 
Sustainability
Civil Engineering
Curriculum
Learning Tasks
CDIO Standard 1
CDIO Standard 2
CDIO Standard 5
CDIO Standard 6
CDIO Standard 8
Year: 
2024
Reference: 
Ajailia N. Gharbi, M., ZERAI.M., CTI and CDIO Competences based curricula (Civil Engineering Case Study) Proceedings of the PAEE/ALE’2019, 11th International Symposium on Project Approaches in Engineering Education (PAEE) and 16th Active Learning in Engineering Education Workshop (ALE) ESPRIT, Tunes - Tunisia, 10 -12 June 2019 : 
Gumaelius, L and Kolmos, A (2020). The future of engineering education: where are heading? Proceedings SEFI 47th Annual Conference. Varietas Delectat... Complexity is the Noarmality, pp 1663-1672: 
Junar E, RAPPORT SUR L'ÉTAT MONDIAL DES BÂTIMENTS ET DE LA CONSTRUCTION EN 2022, Vers un secteur des bâtiments et de la construction à émission zéro, efficace et résilient: 
Kolmos A, Hadgraft R.G, Holgaard J.E. (2016). Response Strategies for curriculum Change in engineering. International Journal of Technology and Design Education, 26(3), 391-411: 
https://doi.org/10.1007/s10798-015-9319-y
Malmqvist J, Edstrom K, Rosen A, (2020a). CDIO Standards 3.0_ Updates to the core CDIO Standards. 16th International CDIO Conference, Gothenburg, Sweden: 
Malmqvist J, Edstrom K, Rosen A,Hugo R, Campbell D,. (2020). Optional CDIO Standards: Sustainable Development, Simulation-Based Mathematics, Engineering Entrepreneurship, Internationalization & Mobility. 16th International CDIO Conference, Gothenburg, Sweden: 
Rosén A, Hermansson H, Finnveden G, Edstrom K (2021). Experiences from Apllying the CDIO Standard for Sustainable Development in Institution Wide Program Evaluation. 17th International CDIO Conference.: 
Sterling S (2004) Higher Education, Sustainability and the role of systemic learning. In Corcoran PF & Wals A (Eds) Higher Education and the challenge of Sustainability, Problematics, Promise and Practice. Kluwer Academic Press : 
http://dx.doi.org/10.1007/0-306-48515-X_5
Go to top
randomness