Fluid flow studies play a vital role in proper assessing of wind loadson buildings and other civil engineering structures with various shapes. The presence of adjacent structure may alter wind loads on the structure of interest, by altering the fluid dynamics surrounding the structure. This effect is termed as interference effect and it depends on various factors such as terrain category, wind angle, geometry & orientation of the structure, spacing between the structures etc. Thus, proper assessment of interference effect with above factors, can lead to efficient design of structures that can withstand the load variations due to the presence of interfering structures. The existing literature on wind interference effects, focuses more on experimental analysis of the problem, which is both expensive and time consuming. In this regard, computational fluid dynamics (CFD) approach can serve as a quicker and efficient tool. In an attempt to study the effect of geometry &orientation of structures on interference phenomenon, turbulent flows around the buildings, cooling towers and chimneys have been simulated through CFD approach by performing Large Eddy Simulation (LES). In the present study, interference factors of a typical chimney structure has been evaluated by considering the presence of an identical chimney at varying distances, under different wind angles.
In wind farms, turbine structures exist very close to each other, which usually enhances or reduces the pressure load on the surrounding structures. This phenomenon, termed as interference effect is therefore essential from a design point of view. Provisions for considering interference effects while designing of structures are inadequate in wind loading codes and standards. The present paper investigates the interference factors for two wind turbines located in close vicinity and also compares the interference factor of a wind turbine tower with similar studies on rectangular building type structure. Some critical observations made from the results of this study is the nature of variation of the interference factor for different wind incident angles when varying distances separate the structures. The wind interference factors are observed at different locations on the wind turbine tower, and an attempt is made to categorize the various trends found.
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