Optimal Estimation of the Roughness Coefficient and Friction Factor of a Pipeline

This work addresses the estimation of two interrelated parameters of the fluid flow in pipes. First, a numerical and experimental evaluation of some proposed methods to compute the friction factor in turbulent regime is presented. Special attention is given to an explicit solution obtained through t...

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Veröffentlicht in:	Journal of fluids engineering 2021-05, Vol.143 (5)
Hauptverfasser:	Santos-Ruiz, Ildeberto, López-Estrada, Francisco-Ronay, Puig, Vicenç, Torres, Lizeth, Valencia-Palomo, Guillermo, Gómez-Peñate, Samuel
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Sprache:	eng
Schlagworte:	Multiphase Flows
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container_title	Journal of fluids engineering
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creator	Santos-Ruiz, Ildeberto López-Estrada, Francisco-Ronay Puig, Vicenç Torres, Lizeth Valencia-Palomo, Guillermo Gómez-Peñate, Samuel
description	This work addresses the estimation of two interrelated parameters of the fluid flow in pipes. First, a numerical and experimental evaluation of some proposed methods to compute the friction factor in turbulent regime is presented. Special attention is given to an explicit solution obtained through the Lambert W-function. Subsequently, a method to estimate the roughness coefficient using nonlinear optimization techniques is proposed, which then allows determining the friction factor from it. Numerical tests were performed for a wide range of operating points of a pipeline. In order to validate the proposed approach, experimental analysis was carried out on a pipeline pilot-plant. The results show the applicability and effectiveness of the proposed method.
doi_str_mv	10.1115/1.4049674
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First, a numerical and experimental evaluation of some proposed methods to compute the friction factor in turbulent regime is presented. Special attention is given to an explicit solution obtained through the Lambert W-function. Subsequently, a method to estimate the roughness coefficient using nonlinear optimization techniques is proposed, which then allows determining the friction factor from it. Numerical tests were performed for a wide range of operating points of a pipeline. In order to validate the proposed approach, experimental analysis was carried out on a pipeline pilot-plant. 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title	Optimal Estimation of the Roughness Coefficient and Friction Factor of a Pipeline
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