Building on planet Mars student project

Détails

ID Serval
serval:BIB_2C104CC524E8
Type
Partie de livre
Sous-type
Chapitre: chapitre ou section
Collection
Publications
Institution
Titre
Building on planet Mars student project
Titre du livre
Structure and Architecture : Concepts, Application and Challenges
Auteur⸱e⸱s
Nussbaumer A., Zurbruegg P., Erkman E., Besson T.
Editeur
Taylor & Francis
Lieu d'édition
London
ISBN
978-1-299-85452-9
Statut éditorial
Publié
Date de publication
2013
Editeur⸱rice scientifique
Cruz Paulo J . S .
Numéro de chapitre
175
Pages
1411-1418
Langue
anglais
Résumé
In the case of such a very special building project, the crucial stake for sustainable development is the fact that space systems are extreme cases of environmental constraints. In- deed, they constitute an interesting model as an analogy can be made between Martian utmost conditions and some of the possible extreme one's that Earth might soon face. The didactic ob- jective of the project is to use the context of a building on Mars to teach an approach which raises the students awareness to design and plan all steps of a building in a sustainable way, i.e. build, with the available resources, living spaces that satisfy human needs and leave as intact as possible the external environment. The paper presents the approach and the feedback of this student project, more specifically ENAC Learning Unit", which involved 17 students from envi- ronmental, civil engineering and architecture sections from EPFL. All the same, it involved pro- fessors from all three domains, as well as aerospace and Mars specialists, which gave seminars during the course of the semester. The students were separated in groups, and the project con- sisted of two phases: 1) analysis of the context and resources, 2) project design and critic. Both organisational, technical and pedagogical aspects of the experience are presented. The outcome was very positive, with students experiencing for their first time multidisciplinary work and the iterative process of design under multiple constraints.
Mots-clé
Mars, artificial closed ecosystems, industrial ecology, architecture, building technologies, education
Création de la notice
05/12/2013 16:29
Dernière modification de la notice
18/05/2024 5:58
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