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Improved Analytical Solution for Turbulent Flow in Channel or Pipe

Published 18 Aug 2025 in physics.flu-dyn | (2508.12621v1)

Abstract: The approximate analytical solution for turbulent flow in a channel was proposed in Fedoseyev (2023). It described the mean turbulent flow velocity as a superposition of parabolic (laminar) and superexponential (turbulent) solutions. The Alexeev Hydrodynamic Equations (AHE), proposed by \cite{Alexeev_1994}, were used as the governing equations to describe turbulent flow. Compared to the Navier-Stokes equations, the AHE include additional terms representing temporal and spatial fluctuations. These additional terms include a timescale multiplier $\tau$, and the AHE reduce to the Navier-Stokes equations in the limit as $\tau \to 0$ In this study, we propose an improved analytical solution formula that provides better agreement with experimental data at high Reynolds numbers. The maximum discrepancy between the analytical solution and experimental data has been reduced from 5% to 2% for Reynolds numbers of order 100,000, and from 10% to 4% for Reynolds numbers up to 35,000,000, based on comparisons with experimental results ranging from the legacy work of Nikuradse (Prandtl group, 1932) to studies by Wei (1989), Zagarola (1996), van Doorne (2007), and the recent work of Pasch (2023).

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