>
Fa   |   Ar   |   En
   investigating the wind-induced effects on tall buildings to reduce drag coefficient through large eddy simulation (les)  
   
نویسنده mastari farahani najmeh ,baghaei daemei abdollah ,madelat payam ,abbaszadegan maryam
منبع international journal of architecture and urban development - 2023 - دوره : 13 - شماره : 2 - صفحه:5 -14
چکیده    Wind load in architectural engineering can be defined as the natural load produced by air and is considered the most vital factor in design because this load significantly impacts structures, especially tall buildings. in this regard, drag force is the crucial wind force in tall building design. even if the structure’s safety is verified by using advanced technologies and high-quality materials, the vibrations caused by the wind force can still reach beyond the human comfort zone and may cause concern. the main goal of this study is to identify the wind aerodynamic factors in the urban boundary layer and evaluate the drag coefficient in tall-square buildings. seven sample squared-plan buildings with aerodynamic modifications (corners) including recessed, rounded, and chamfered corners, and aerodynamic forms including set-back, tapered, and helical/twisted compared to the base (sharp corner) model. autodesk flow design 2014 software was performed as a wind tunnel simulator. the software utilizes a large eddy simulation (les) turbulence model solver to account for turbulence within the wind tunnel. les is a mathematical model for turbulence used in computational fluid dynamics of the atmospheric boundary layer. the results showed that the sq6 with the aerodynamic tapered form had the best performance compared to other samples, which was about 50%. the sq3 sample with chamfered aerodynamic modification could reduce the building’s drag coefficient and wind effect by about 42%.
کلیدواژه wind aerodynamics ,urban boundary layer ,wind tunnel simulation ,drag coefficient ,tall buildings
آدرس technical and vocational university, faculty member and ins‌tructor, department of architecture and urbanism, iran, massey university, school of built environment, college of science, new zealand, tallinn university of technology, school of engineering, department of civil engineering and architecture, estonia, soore university, faculty of architecture and urbanism, iran
پست الکترونیکی mary.zadegan@gmail.com
 
     
   
Authors
  
 
 

Copyright 2023
Islamic World Science Citation Center
All Rights Reserved