The main piping element which causing Flow Induced Vibration is angle type valve.
The vibration structure of pipeline is modeled by using CATIA software as per specifications and the effect of turbulence of gas flow in the piping element is analysed by using Fluent and ANSYS software. The critical fluid velocity has been calculated by analytical approach. Governing Equation of motion for pipe conveying fluid of real system has been derived. Mathematical Model of pinned-pinned pipe carrying fluid has been developed. Experimental study and analysis of flow induced vibration is to be carried out by study the effect of turbulence of gas flow in the piping system during the course of sub cooling of flight static fire test or flow trial. In this set up, the main components of piping elements which causes vibration is angle type valve. This paper deals with the mathematical model and Computational analysis of flow induced vibration of Rocket Engine Test Facility. From the observations made the fundamental natural frequency (FNF) decreases by increasing of crack length in the pipe that conveys fluid
leakage is a common problem that often results in oil waste, damage, and hazard to public health. This problem caused 55% of oil refineries to be shut off. P>One of the most prominent problems experienced by the oil facilities is leakage of oil from the pipes.
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