As construction technology advances and building techniques become more sophisticated, modern architecture transcends merely creating spaces; it often serves as a landmark through various forms and structures. Prominent buildings of this nature not only fulfill their functional roles but also generate ancillary economic benefits, such as attracting tourists. Accordingly, we propose the construction of an eco-friendly super high-rise building in Yangjae, Gangnam-gu, Seoul, equipped with energy-saving features. This project aims to invigorate the Yangjae AI district, attract more tourists to the Gangnam area of Seoul, and thereby stimulate economic activity.

To ensure the stability of the super high-rise building, controlling horizontal displacement due to wind loads is a crucial aspect of structural design. We have adopted a Twist form, known to be highly effective in reducing wind-induced vibrations in non-standard high-rise buildings. Additionally, the building's plan is designed as an octagon, allowing wind to flow smoothly around it. The lateral force-resisting system incorporates outrigger and belt trusses, with a focus on determining the most effective locations and numbers to control horizontal displacement.

Moreover, while super high-rise buildings often suffer from energy inefficiency due to glass curtain walls, this drawback has been addressed. By implementing an optimized shading facade and Venetian blinds, developed through architectural environmental simulation optimization, we have designed a sustainable, eco-friendly building that reduces cooling loads. The optimized shading facade regulates direct solar gain, and the automated Venetian blinds control the entry and blockage of sunlight, achieving an energy-efficient building, as verified through simulation.