Modelling the Effect of Incompressible Leakage Patterns on Rupture Area in Pipeline

M.  Shehadeh; A.I.  Shahata

Modelling the Effect of Incompressible Leakage Patterns on Rupture Area in Pipeline

Authors

M. Shehadeh Marine Engineering Department, College of Engineering and Technology Arab academy for science, technology and Maritime Transport, EGYPT
A.I. Shahata Mechanical Engineering Department, College of Engineering Arab academy for science, technology and Maritime Transport, EGYPT

Keywords:

pipeline, leakage water, modelling, CFD, rupture area

Abstract

This paper presents a three-dimensional numerical analysis for rupture area in steel pipeline using a general-purpose CFD solver. A computational model is developed for studying leakage in steel pipes with different rupture diameters and different fluid flow properties such as pressures and velocity. The simulation results showed a good agreement with experimental measurements. Numerical solutions for the distributions of water flow velocity, pressure and turbulence are presented and discussed. The results show that there is a direct relation between the maximum velocity, total pressure, turbulence intensity and leakage mass flow rate with rupture area in pipelines.

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Published

2021-01-18

How to Cite

Shehadeh, M. ., & Shahata, A. . (2021). Modelling the Effect of Incompressible Leakage Patterns on Rupture Area in Pipeline. CFD Letters, 5(4), 132–142. Retrieved from https://www.akademiabaru.com/submit/index.php/cfdl/article/view/3370