Numerical Modeling Of Water-Air Multiphase Flow Within A Pipeline In The Presence Of Double Leaks

Hicham Ferroudji*, Muhammad Saad Khan, Abinash Barooah, Mohammad Azizur Rahman, Ibrahim Hassan, Rashid Hassan, Ahmad K. Sleiti, Sina Rezaei Gomari, Matthew Hamilton

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

As the majority of petroleum businesses produce and transport gas and oil at the same time, multiphase flows are essential to the oil and gas sector. Aging, metal deterioration, and corrosion are common reasons for pipeline leaks. The energy industry not only suffers financial losses following an event, but it also raises safety and environmental issues. Thus, it becomes essential to create an effective strategy for concurrently identifying pipeline leaks. In the current work, two simultaneous leaks—one measuring 3 mm and the other 1.8 mm—in a pipeline are investigated using a 3D numerical model created with Ansys-Fluent. The experimental data obtained from a laboratory flow loop system is used to validate the numerical results. Additionally, the pipeline's flow behavior and the vicinity of the leaks are assessed. For instance, it is seen that the gas phase's escape velocity through the leaks first drops dramatically before progressively increasing to a constant value in the water tank.

Original languageEnglish
Title of host publicationProceedings of the 11th International Conference on Fluid Flow, Heat and Mass Transfer, FFHMT 2024
EditorsBoguslaw Kruczek, Wael H. Ahmed, Xianshe Feng
PublisherAvestia Publishing
ISBN (Print)9781990800412
DOIs
Publication statusPublished - 2024
Externally publishedYes
Event11th International Conference on Fluid Flow, Heat and Mass Transfer, FFHMT 2024 - Toronto, Canada
Duration: 16 Jun 202418 Jun 2024

Publication series

NameInternational Conference on Fluid Flow, Heat and Mass Transfer
ISSN (Electronic)2369-3029

Conference

Conference11th International Conference on Fluid Flow, Heat and Mass Transfer, FFHMT 2024
Country/TerritoryCanada
CityToronto
Period16/06/2418/06/24

Keywords

  • Acoustic signal
  • Computational fluid dynamics
  • Double leaks
  • Multiphase flow
  • Turbulent flow

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