Research Article Open Access

Physical and Geometrical Effects on the Vibratory Pattern of a Pipe Carrying Fluid Flow

Dahmane Mouloud1, Samir Zahaf2, Mawhoub Soubih3, Benkhettab Mohamed4 and Djilali Boutchicha1
  • 1 USTO-MB, Algeria
  • 2 University of Djilali Bounaama-Khamis Meliana, Algeria
  • 3 Chlef University Hassiba Benbouali, Algeria
  • 4 Mostaganem University-Abdelhamid Ibn Badis, Algeria

Abstract

In this research, the first natural frequencies and critical velocities of a fluid flow-conveying pipe are obtained with finite element method. By discretizing the structure wall and fluid flow, starting from beam type with two degrees of freedom per node. We determine the equation of motion from the fluid-structure coupling using Lagrange energy principle. Parameters frequencies and critical velocity of fluid flow are calculated by using a program developed on MATLAB. The results are compared with those predicted by the differential transformation method. Stability and instability properties of the system are analyzed after calculating the natural frequencies and the fluid critical velocity in terms of various parameters.

Current Research in Bioinformatics
Volume 9 No. 1, 2020, 45-55

DOI: https://doi.org/10.3844/ajbsp.2020.45.55

Submitted On: 6 July 2020 Published On: 22 October 2020

How to Cite: Mouloud, D., Zahaf, S., Soubih, M., Mohamed, B. & Boutchicha, D. (2020). Physical and Geometrical Effects on the Vibratory Pattern of a Pipe Carrying Fluid Flow. Current Research in Bioinformatics, 9(1), 45-55. https://doi.org/10.3844/ajbsp.2020.45.55

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Keywords

  • Fluid-Conveying Pipe
  • Natural Frequencies
  • Critical Velocity
  • Elastic Foundation
  • Instability
  • MATLAB