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://akademiabaru.com/submit/index.php/cfdl/article/view/3370
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