Informations et ressources scientifiques
sur le développement des zones arides et semi-arides

Accueil du site → Master → Etats Unis → 2012 → Water infrastructure : hybridized architecture along the Arizona canal ; Hybridized architecture along the Arizona canal

Massachusetts Institute of Technology MIT (2012)

Water infrastructure : hybridized architecture along the Arizona canal ; Hybridized architecture along the Arizona canal

Atwood, Alex

Titre : Water infrastructure : hybridized architecture along the Arizona canal ; Hybridized architecture along the Arizona canal.

Auteur : Atwood, Alex (Wayne Alex)

Université de soutenance : Massachusetts Institute of Technology MIT

Grade : M. Arch., Architecture., 2012

Résumé
Due to budget issues, the Central Arizona Project (CAP) canal has been left exposed to the arid desert environment since its construction in the 1970s. As a result, 5% of the amount of water diverted from the Colorado River is lost to evaporation and seepage from the exposed aqueduct and Lake Pleasant reservoir. This amount of loss is equivalent to the amount of water required to supply 75,000 households annually. With increasing pressures on the Central Arizona canal, we should restrategize and reinvest in this infrastructure in order to prevent further inefficiencies and further loss of water. The objective of this thesis aims to engage architecture with water infrastructure in order to transform the canal into a water-efficient repository and recreational venue while recuperating the amount of water loss from the canal. Through the act of hybridization, a regional amenity is created, serving as support for the water infrastructure as well as creating spatial experience of water collection. A series of architectural interventions along the canal serve as nodes for rainwater collection. These nodes function as public spas that combine the act of swimming with the act of collecting and cleansing water in order to create spatial experience and awareness of the issues of water.

Présentation

Version intégrale (34,59 Mb)

Page publiée le 20 juin 2013, mise à jour le 12 juillet 2018