Recently, the Shenzhen Science and Technology Museum, designed by the world-renowned architectural firm Zaha Hadid Architects, has been grandly inaugurated in the Guangming District of Shenzhen, China. This innovative building, reminiscent of a spaceship, is expected to become a significant landmark in the Greater Bay Area, an area that serves as the core of technological innovation with a population nearing one hundred million.
The museum's design is centered on a solid spherical structure facing the city, extending westward into the nearby Science Park. This transformation creates a series of dynamic outdoor terraces that offer breathtaking views of lush natural landscapes. These terraces not only extend the indoor exhibition halls but also surround a magnificent central atrium, crafting a vibrant new public space. The building’s futuristic style continues Zaha Hadid's signature streamlined design, with a two-tone stainless steel facade that transitions from deep blue to gray, reminiscent of celestial movements, further enhancing its visual appeal.
This museum boasts a total construction area of over 128,000 square meters, featuring 35,000 square meters dedicated to both permanent and temporary exhibition spaces, alongside an immersive theater and cinema facility spanning 6,000 square meters. Additionally, the museum includes 5,400 square meters of research laboratories, educational facilities, and an innovation center, all designed with a keen focus on sustainable development, aiming to achieve China's highest three-star green building rating. The museum employs various passive environmental strategies, such as minimizing solar heat gain and utilizing a ventilation facade system to enhance energy efficiency and reduce carbon emissions. Furthermore, it incorporates greywater recycling and rainwater collection systems to lower water demand, while photovoltaic panels are utilized for on-site power generation. Throughout the construction process, advanced digital technologies like BIM and 3D scanning were implemented to ensure the precise realization of this complex architectural form.
