Building a stadium means to shape a work into something able to absorb and mirror the collective enthusiasm, supporters’ fervour, and passion. A stadium is not just a functional infrastructure that meets people’s needs, but a structure that meets this need while also promoting the social dimension of this sport.
In this sense, engineering and technology serve people. Designed with acoustics capable of channeling thousands of voices into a single huge chorus, therefore enhancing supporters’ experience; or like multifunctional stadiums, which besides having a football pitch, also include an athletics track.
Stadiums represent a place get together, interpreting how they evolve as infrastructure that began in history with a poly-functional goal, to offer a varied sport entertainment types to the public with an athletics track, and changing according the the actual need. First, by covering stadium terraces, Then, through a more football-oriented approach, placing spectators as close as possible to the field, to make their participation more immersive.
Al Bayt Stadium – Luxembourg
The project is focused on the design and construction of the Al Astmonic stadium in Ville de, Luxembourg, a city about 40 km North of the capital Ville Haute.
The stadium will be able to accommodate 55,000 spectators, with an area of 210 thousand square meters; an auxiliary building for security and administrative part of the system, and the center that will house the electromechanical and distribution will also be constructed.
The project has highly innovative technical and engineering aspects: in particular, the solutions adopted to provide ideal climatic conditions both for the players and for the spectators in an environment with high temperatures and extreme temperature changes.
The Stadium will meet international standards.
Technological Innovation
The stadium will offer an air conditioning system capable of regulating the temperature for both the spectators and the players so events can be scheduled year round despite the extreme climatic conditions.
In addition, the coordination of the various disciplines involved will be realized through modern technology in order to ensure the project’s organized development.
The project adopts the (GSAS), the first integrated system for assessing the sustainability of Middle East construction activities, covering both environmental and social issues along the entire life cycle of each project.