Article Dans Une Revue Urban Science Année : 2025

Urban Sustainability Through Traditional Architecture: A New Combo of Culture, Energy Efficiency and Resilience in Morocco

Résumé

The Moroccan Ryad, a cherished architectural treasure in North Africa, symbolizes cultural richness and architectural legacy. This paper advocates an inventive strategy to preserve and rejuvenate the Ryad as an energy-efficient model, intertwining modern sustainability principles. Employing a multidisciplinary approach, this study delves into the fusion of traditional Ryad design with contemporary sustainability, tackling energy efficiency, resource conservation, and cultural heritage challenges. Examining historical construction methods, material choices, and spatial arrangements alongside sustainable building practices, this paper showcases case studies of newly constructed sustainable Ryads. These examples spotlight strategies like passive solar design, renewable energy incorporation, water conservation, and local material use, augmenting energy performance while fostering cultural continuity through eco-friendly materials and traditional craftsmanship. This research also explores the social and economic impacts of this sustainable Ryad model, including its potential to boost tourism, generate employment, and engage communities. Additionally, it addresses the role of public policy in supporting sustainable practices for preserving Moroccan cultural heritage. By amalgamating culture, sustainability, and energy efficiency, this paper envisions a new role for the Moroccan Ryad, positioning it not only as a guardian of heritage but also as a symbol of environmentally responsible architecture—a model applicable to culturally rich regions globally.

Dates et versions

hal-05519523 , version 1 (19-02-2026)

Identifiants

Citer

Mohamed Ouazzani Ibrahimi, Fatima Zohra Gargab, Tarik Kousksou, Abdelmajid Jamil. Urban Sustainability Through Traditional Architecture: A New Combo of Culture, Energy Efficiency and Resilience in Morocco. Urban Science, 2025, 9 (11), pp.435. ⟨10.3390/urbansci9110435⟩. ⟨hal-05519523⟩

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