TY  - CONF
SN  - 9798350372229
PB  - Institute of Electrical and Electronics Engineers Inc.
Y1  - 2024///
EP  - 816
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85190503247&doi=10.1109%2fICETSIS61505.2024.10459521&partnerID=40&md5=4de23fb9c44399b2ddcffe1bd65d38c5
A1  - Alkhatib, F.
A1  - Daris, A.
A1  - Almasaudi, A.H.H.
A1  - Alawag, A.M.
A1  - Baarimah, A.O.
A1  - Alakhali, A.K.
AV  - none
KW  - Aerodynamic loads; Architectural design; Conceptual design; Industrial research; Population statistics; Structural design; Tall buildings; Urban growth; Wind stress
KW  -  Aerodynamics optimizations; Computational design; Load design; Population growth; Structural optimisations; Sustain ability; Urban population; Wind load; Wind-responsive; Work-flows
KW  -  Structural optimization
TI  - Review and Conceptual Workflow for Enhancing Wind Loads Design of Sustainable Asymmetrical Tall Buildings
SP  - 812
ID  - scholars20057
N2  - Tall buildings have emerged in popularity as a solution for accommodating swift urban population growth, economic expansion, and spatial constraints. However, as sustainability takes precedence in urban development, the performance and optimization of tall buildings have assumed critical research significance. Wind loads predominantly dictate the parameters for the design and optimization of these structures, mandating a wind-responsive approach to assess structural behaviors. This challenge is compounded by contemporary architectural trends favoring asymmetrical shapes and intricate geometries, where external form crucially influences wind-induced motion on tall buildings. This paper firstly undertakes a review study based on prior research works to investigate the main challenges and associated impediments in the pursuit of optimizing asymmetrical tall buildings for designs that are sustainable, safe, and economically viable. In response, a conceptual design workflow is developed and proposed by utilizing advanced computational technology to address the array of challenges inherent in designing and optimizing asymmetrical tall buildings. Hence, this research work lays the groundwork for further exploration and broader application to facilitate its implementation for the effective realization of asymmetrical tall buildings within industrial practices. © 2024 IEEE.
N1  - cited By 0; Conference of 2024 ASU International Conference in Emerging Technologies for Sustainability and Intelligent Systems, ICETSIS 2024 ; Conference Date: 28 January 2024 Through 29 January 2024; Conference Code:198253
ER  -