Computational modeling of the neutrally stratified atmospheric boundary layer flow using the standard k–e turbulence model (CROSBI ID 191231)
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Podaci o odgovornosti
Juretić, Franjo ; Kozmar, Hrvoje
engleski
Computational modeling of the neutrally stratified atmospheric boundary layer flow using the standard k–e turbulence model
A novel approach, which focuses on the Reynolds stress in computational simulations of the atmospheric boundary layer (ABL)flow in an empty domain using the k–e turbulence model, is presented. A numerical setup mimics the experiments carried out in the boundary layer wind tunnel for the rural, suburban, and urban terrain exposure. The method accounts for a decrease in turbulence parameters with height, as observed in full scale. In addition, the paper presents analysis which shows that the k–e turbulence model is capable of modeling decreasing turbulence parameters with height and achieves satisfactory accuracy. It is supported with computational results which agree well with the experimental results. In particular, the difference between the calculated and measured mean velocity, turbulent kinetic energy and Reynolds stress profiles remains within ±10% in most parts of the computational domain.
neutrally stratified atmospheric boundary layer flow; atmospheric turbulence; Reynolds stress; computational modeling; steady RANS; standard k-e turbulence model
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Podaci o izdanju
115
2013.
112-120
objavljeno
0167-6105
10.1016/j.jweia.2013.01.011
Povezanost rada
Fizika, Računarstvo, Strojarstvo