5 key facts about this project
### Project Overview
The "Oasis of Porosity" is located in Dubai and integrates traditional Arabic design with contemporary sustainable practices, responding effectively to local climate conditions while enhancing the quality of life for its occupants. The design emphasizes a keen understanding of both cultural heritage and modern living, establishing a connection between the historical context of Dubai and its aspirations for sustainability.
### Spatial Configuration and Community Engagement
The spatial strategy prioritizes natural ventilation and daylighting through the strategic use of courtyards and structured elements. Central courtyards function as communal areas, facilitating social interaction and providing shaded retreat spaces. The predominately triangular architectural form is designed to optimize airflow within the building while minimizing heat gain, thereby improving passive cooling efficiencies. Flexible room layouts accommodate diverse social gatherings, ensuring a versatile environment that fosters a sense of community.
### Material Selection and Environmental Considerations
A commitment to sustainability is evident in the materials chosen for construction, with local resources playing a significant role. Rammed earth, sourced from regional soil, is incorporated for its thermal mass, which aids in temperature regulation. Windcatchers, inspired by historical architectural practices, are integrated into the design to enhance natural ventilation and reduce reliance on mechanical cooling. Furthermore, the landscaping features native species such as palm trees and desert shrubs, promoting biodiversity while minimizing water usage in alignment with sustainable practices.
Key elements of the elevation, including decorative screens and varied height profiles, serve both functional and aesthetic purposes, balancing privacy with light access and solar exposure management. This combination of traditional and modern elements exemplifies a well-considered approach to architectural design.