Author(s): Alireza Riasi PhD Candidate; Professor Ahmad Nourbakhsh; Associate Professor Mehrdad Raisee
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Keywords: Re-laminarization; Runge-Kutta scheme; Turbulence; Unsteady pipe flow; Water hammer
Abstract: The behaviour of unsteady turbulent pipe flow resulting from water hammer is herein numerically studied. An accurate k–θ turbulence model for two-dimensional boundary layers under adverse and favorable pressure gradients (Wilcox 1994) was applied. The results of the numerical method are in good agreement with test data obtained from both steady and unsteady turbulent pipe flows. Also, the behaviour and the structure of turbulence in unsteady turbulent pipe flows caused by water hammer were investigated. A non-dimensional parameter P as the time scale ratio of turbulence diffusion in the radial direction to the pressure wave speed introduced by Ghidaoui et al. (2002) was used. The results show that for P ≈ 1, the turbulence structure is significantly changed in the first cycle of water hammer, which is important for water quality modeling, whereas these variations are small for P ≫ 1.
DOI: https://doi.org/10.1080/00221686.2009.9522018
Year: 2009