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Sustainability Pulse Volume 2 Issue 2


GSAS D&B 5-Star rating awarded to Qatar Foundation’s Education City Stadium

Posted by onJun 22,2020

Education City Stadium

Education City Stadium is the third FIFA World Cup Qatar 2022™ tournament venue to be completed, following the successful redevelopment of Khalifa International Stadium in 2017 and the inauguration of Al Janoub Stadium last year.

To-date, Education City Stadium is the first Qatar 2022 venue to receive a five-star rating under the Global Sustainability Assessment System (GSAS) – which is managed and administered by the Gulf Organisation for Research and Development (GORD).

GORD compiled the following sustainability features about the stadium – all of which helped it to achieve an outstanding rating.


1. GSAS certifications
For its outstanding sustainability features, the stadium has earned three GSAS certifications from GORD, making it one of the most sustainable venues for Qatar 2022. The stadium has received the following certificates: GSAS Design & Build (5*), GSAS Construction Management (Class A*) and GSAS Seasonal Energy Efficiency Ratio. 

2. Passive design
A passive design is one that takes advantage of the climate to maintain a comfortable temperature inside the structure. It reduces or eliminates the need for auxiliary heating or cooling, which generally accounts for a large percentage of energy use. Education City Stadium incorporates passive design through a number of techniques. Its façade makes use of highly efficient building fabric for shading purposes. This provides better insulation and protects the interior from extreme external conditions. Similarly, the structure of the stadium has been built at a lower level than the natural grade – which adds to the project’s overall insulation and temperature control mechanism. Eventually, this will reduce the overall energy consumption in relation to the venue’s cooling needs. 

3. Sustainable materials 
About 85% of the building materials have been regionally sourced, while 55% of materials have been procured locally and 29% generated from recycled content. In addition, 35.5% of the building elements can be disassembled and reused – including the seats in the modular upper tier, which are due to be removed and donated after the tournament. 

4. Post FIFA World Cup™ legacy 
After the World Cup, the stadium’s seating capacity will be reduced from 40,000 to 20,000. The modular upper tier will be removed in order to provide a sporting facility which is suitable for local requirements, notably the needs of the Qatar Foundation (QF) community. The seats which are removed will be donated to countries which lack sporting infrastructure in order to help spread the legacy of Qatar 2022 far and wide. In addition to providing sporting facilities for the QF community, parts of the structure will be turned into lecture halls and event spaces for the various universities which are based at Education City.

5. Urban connectivity 
The stadium takes advantage of urban connectivity through a number of public transport options, notably the Doha Metro. Education City Station, on the Doha Metro Green Line, is located just 500m from the stadium and will make it easy for thousands of fans to get to and from the venue during the FIFA World Cup™. The stadium is also close to Education City’s People Mover System, while for private vehicles there are multilevel car parks and a number of taxi drop-off locations.

6. Water conservation 
The installation of low-flow water fixtures means domestic water usage at the stadium is designed to be 55% more efficient than conventional stadiums. In addition, landscaping around the facility contains native and drought-tolerant flora to reduce water consumption. Similarly, the use of water-hungry turf is minimal. About 75% of the landscaping is further enhanced by an efficient irrigation system which features inline drippers, pressure-compensated bubblers and an automated irrigation control unit. To reduce water loss, organic mulching and gravel have been used to cover the soil without impacting on the health of the flora. 

7. Indoor air quality 
The stadium has low VOC (volatile organic compounds) indoor materials which reduce indoor airborne contaminants. All indoor spaces with high occupancy are equipped with carbon dioxide sensors that ensure efficient ventilation and enhanced air quality. Similarly, the indoor spaces receive sufficient daylight throughout the day which improves the indoor environment and contributes towards energy consumption. 

8. Energy efficiency 
A host of measures help to conserve energy within the stadium, including LED lighting systems with automatic controls, demand-controlled ventilation systems, e-glazing windows and high resistance insulating materials. The cooling for the stadium is provided from a highly efficient district cooling system.

9. Construction management 
The project underwent comprehensive sustainability procedures for its design, operations and construction management practices – premised on the fact the construction has a direct impact on the natural environment, economy and people’s health. In addition, noise and dust levels were constantly monitored and controlled during the construction.

10. Sustainable operations 
The stadium features an efficient waste management system which promotes waste segregation and recycling. Additionally, the stadium features automated controls, leak detection and efficient metering systems. By logging and analysing data, the operators can alert for any unusual peak consumption thereby preventing prolonged leakages or energy wastage.  


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