Use of aerodynamically favorable tapered form in contemporary supertall buildings

Author:

Ilgın Hüseyin EmreORCID

Abstract

Today, supertall buildings can be constructed in unusual forms as a pragmatic reflection of advances in construction techniques and engineering technologies, together with advanced computational design tools for architectural design. As with many other buildings, architectural and practical principles play a crucial role in the form of a supertall building, where aerodynamic behavior shaped by wind-induced excitations also becomes a critical design input. Various methods are used to meet the functional needs of these towers and reduce excitations, including aerodynamic modification methods directly related to the building form. Tapered forms are one of the most frequently used and most effective methods in today's skyscrapers, which significantly affect architectural design. To date, no study has been conducted in the literature that provides an understanding of the interrelationships between tapered building forms and main planning criteria, considering the aerodynamic design concerns of the tapering effect in supertall buildings (≥300 m). This important issue is explored in this article with data gathered from 41 supertall case studies, considering location, function, structural system, and structural material as well as the aerodynamic taper effect. The main findings of the study highlighted the following: (1) Asia was where tapered towers were most favored, with a wider margin in all regions; (2) mixed-use was the most preferred function in selected supertall buildings with tapered form; (3) outriggered frame systems were mainly used; (4) tapered supertall cases were mostly built in composite; (5) the sample group included 17 cases that used the tapering effect with aerodynamic design concerns, some of which were accompanied by corner modifications. It is believed that this study will be a basic guide for design and construction professionals including architectural and structural designers, and contractors.

Publisher

Journal of Design for Resilience in Architecture & Planning

Subject

General Earth and Planetary Sciences,General Environmental Science

Reference60 articles.

1. Adrian Smith + Gordon Gill Architecture LLP, (2022). Wuhan Greenland Center, Retrieved from: http://smithgill.com/work/wuhan_greenland_center/

2. Alaghmandan, M., Bahrami, P., and Elnimeiri, M. (2014). The Future Trend of Architectural Form and Structural System in High-Rise Buildings, Architecture Research, 4(3), 55-62, 10.5923/j.arch.20140403.01.

3. Ali, M., and Al-Kodmany, K. (2012). Tall Buildings and Urban Habitat of the 21st Century: A Global Perspective. Buildings, 2(4), 384–423.

4. Ali, M.M. and Al-Kodmany, K. (2022). Structural Systems for Tall Buildings, Encyclopedia, 2, 1260-1286. doi.org/10.3390/encyclopedia2030085

5. Ali, M. M. and Moon, K.S. (2018). Advances in structural systems for tall buildings: Emerging developments for contemporary urban giants. Buildings 8 (104): 1–34.

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