Open AccessFlow Induced Vibration of Cantilever Tapered Pipes Transporting Fluid
Author(s) -
Mohamed Gaith
Publication year - 2021
Publication title -
wseas transactions on fluid mechanics
Language(s) - English
Resource type - Journals
eISSN - 2224-347X
pISSN - 1790-5087
DOI - 10.37394/232013.2021.16.2
Subject(s) - tapering , inviscid flow , cantilever , flutter , mechanics , vibration , bernoulli's principle , fluid dynamics , pipe flow , flow (mathematics) , flow velocity , physics , structural engineering , engineering , aerodynamics , acoustics , computer science , thermodynamics , turbulence , computer graphics (images)
A cantilevered tapered slender pipe conveying an incompressible, inviscid fluid of one material is not a conserved system. For certain large fluid velocity, the pipe with uniform cross section would go unstable via flutter Hopf bifurcation. In this paper, the flow induced vibration for cantilever tapering pipe transporting a fluid is presented. Euler Bernoulli and Hamilton’s theories are applied to develop the mathematical model which will be solved using well known Galerkan’s procedure. The effect of smooth tapering of the circular cross sectional area, flow velocity and pipe to fluid mass fraction on the complex natural frequencies and stability will be investigated.