A Review of Sustainable Design in the Middle East

Karim Elgendy

The notions of sustainable design and energy efficiency first entered global consciousness following the energy shortages of the 1970s and 1980s. Influenced by ideas of energy independence, many designers in Europe and North America sought ideas and strategies that could help create energy-efficient buildings and cities. As they searched for design solutions, some researched the environmentally responsive elements of traditional architecture, while others developed new solutions that employ modern technologies and high performance materials.

As the energy crisis subsided, the building industry in North America returned to business as usual, allowing its European counterpart – which emphasized technological solutions – to take a lead. But with the revival of global interest in sustainability – this time driven by both environmental and energy concerns – the dormant dialogue between the two approaches to sustainable design returned to play a role in shaping the global sustainability agenda. Oscillating between advocates of passive design and proponents of technological solutions, this dialogue continues to enrich the discourse on the future of sustainable design and development

National Commercial Bank in Jeddah (left). consists of a triangular 27-storey office tower juxtaposed with a six-storey, 400-car circular garage. The verticality of the bank tower is interrupted by three triangular courtyards ‘chiseled’ into the building's facade. The office windows are oriented towards these courtyards with an inward orientation typical of Islamic traditional design. This provides the interiors with daylight but prevents them from overheating. Copyrights: Wolgfang Hoyt/Esto. Shaded pathways within Masdar Institute for Science and Technology (right) Copyrights: Nigel Young

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A Damascus School Revives Traditional Cooling Techniques

Karim Elgendy

In late 2008 the French President Francois Sarkozy inaugurated a new French school in Damascus, Syria. The French school, known as Lycée Charles de Gaulle,  follows the french educational system and is accreddited by the French ministry of education. The school was designed by the French architects Ateliers Lion together with the German environmental engineering firm, Transsolar.

Image 1. Night view of school central courtyard showing the solar chimneys. Copyrights: Adria Goula Sarda, Ateliers Lion

The brief for the design team was to  to develop a campus for the school with a capacity for 900 students ranging from kindergarten to high school. The design team was also tasked to develop a campus that embodies sustainability by using low-technology solutions for ventilation and conditioning of the school spaces, while maintaining the thermal comfort levels required for students in an educational environment.

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Riyadh Tower Design adapts a Traditional Middle Eastern Shading Strategy

Image 1. A night view of the design showing the shading enevlope and the spiraling forms behind. Copyrights: Perkins+Will

Image 1. A night view of the design showing the shading envelope and the spiraling forms behind. Copyrights: Perkins+Will

In February 2010, the design for Al-Birr Foundation Headquarters in Riyadh, Saudi Arabia, has been named as the winner of the 2010 Architectural Review / MIPIM Future Projects Awards under the ‘tall buildings’ category (Image 1). The unbuilt project, designed by Perkins+Will’s New York Office, was commissioned for Al-Birr Foundation, a non-profit organization aimed at alleviating poverty and caring for disadvantaged families and children.

The Design

Of the many features of the design of the 59, 000 sqm tower, perhaps the most interesting is how it was concieved as a sustainable urban tower that responds to the environmental characteristics and the microclimate of the city of Riyadh, which is a challenging climate to address given the extreme solar exposure and the heat conditions of Riyadh.

Faced with these climatic conditions and a deep plot of 1000 x 1200m, the projects’s designers response was to rethink the high rise typology in this context. The design’s most visible response to the climate is the building’s envelope which was designed as a large rectangular frame of brise-soleil enclosing the occupied parts of the building. This shading frame  was designed to respond to both the different amounts of solar radiation received by each elevation as well as the interior spaces behind it. To achieve this  result, a mapped shading mesh was devised to provide varying levels of openness for different locations of the different elevations depending on its solar exposure and its spatial/contextual influences. The result was an envelope that resembles a mesh of varying densities surrounding the building and simultaneously protecting and revealing the activities behind it.

This proposed design solution thus helps the building reduce its solar heat gain while maintaining its views towards the city (FIgure 1). In addition to this shading effect, the mesh-like dynamic treatment of the envelope has also helped animate the building’s expression with the dense and sparse zones of the facade adding a dynamic effect to what otherwise may have become a static pure form.

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A California Building Revives Traditional Middle Eastern Designs

Karim Elgendy

The Carnegie Center for Global Ecology in Stanford is a research facility that combines Laboratories and office spaces. The 1100 Sqm building was built on a previously developed plot of 7.4 acres. The client’s main concerns were lowering the carbon  emissions tied to the building’s energy use as well as the embodied carbon emissions of building materials. Flexibility over the short and long term was also of utmost importance to the client who wanted to allow for the expansion and contraction of research teams.Like Many of the Climates of the Middle East, Stanford has an arid climate with a long dry summer season, and benefits from northwest breezes.


Image 1. View of the Eastern facade of the Carnegie Center showing the wind tower and the naturally ventilated entrance lobby. Copyright: Peter Aaron / Esto

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