Numerical and experimental modeling of two leaks behavior for water-air multiphase flow through a pipeline

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

doi:10.1615/TFEC2024.mpf.050352

Numerical and experimental modeling of two leaks behavior for water-air multiphase flow through a pipeline

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: Contribution to journal › Conference article › peer-review

1 Citation (Scopus)

Abstract

Given that most petroleum companies simultaneously produce and transport both oil and gas, multiphase flows play a crucial role in the oil and gas industry. Common causes of pipeline leaks include corrosion, aging, and metal deterioration. When an incident occurs, the energy company not only incurs financial losses but also triggers safety and environmental concerns. Consequently, the development of a practical technique for simultaneously detecting leaks in pipelines becomes imperative. In the present study, a 3D numerical model is developed using Ansys-Fluent to investigate simultaneous leaks (the first leak measuring 3 mm and the second leak measuring 1.8 mm) within a pipeline. The numerical results are validated against experimental data collected from a flow loop system in the laboratory. Furthermore, the flow behavior in the pipeline and the surrounding area of the leaks is evaluated. For example, it is observed that the escape velocity of the gas phase through the leaks initially decreases significantly before gradually reaching a stable value.

Original language	English
Pages (from-to)	1411-1421
Number of pages	11
Journal	Proceedings of the Thermal and Fluids Engineering Summer Conference
DOIs	https://doi.org/10.1615/TFEC2024.mpf.050352
Publication status	Published - 2024
Externally published	Yes
Event	9th Thermal and Fluids Engineering Conference, TFEC 2024 - Hybrid, Corvallis, United States Duration: 21 Apr 2024 → 24 Apr 2024

Keywords

Acoustic signal
Computational Fluid Dynamics
Dynamic pressure
Leak detection
Multiphase flow
Turbulence

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10.1615/TFEC2024.mpf.050352

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title = "Numerical and experimental modeling of two leaks behavior for water-air multiphase flow through a pipeline",

abstract = "Given that most petroleum companies simultaneously produce and transport both oil and gas, multiphase flows play a crucial role in the oil and gas industry. Common causes of pipeline leaks include corrosion, aging, and metal deterioration. When an incident occurs, the energy company not only incurs financial losses but also triggers safety and environmental concerns. Consequently, the development of a practical technique for simultaneously detecting leaks in pipelines becomes imperative. In the present study, a 3D numerical model is developed using Ansys-Fluent to investigate simultaneous leaks (the first leak measuring 3 mm and the second leak measuring 1.8 mm) within a pipeline. The numerical results are validated against experimental data collected from a flow loop system in the laboratory. Furthermore, the flow behavior in the pipeline and the surrounding area of the leaks is evaluated. For example, it is observed that the escape velocity of the gas phase through the leaks initially decreases significantly before gradually reaching a stable value.",

keywords = "Acoustic signal, Computational Fluid Dynamics, Dynamic pressure, Leak detection, Multiphase flow, Turbulence",

author = "Hicham Ferroudji and Khan, {Muhammad Saad} and Abinash Barooah and Rahman, {Mohammad Azizur} and Ibrahim Hassan and Rashid Hassan and Sleiti, {Ahmad K.} and Gomari, {Sina Rezaei} and Matthew Hamilton",

year = "2024",

doi = "10.1615/TFEC2024.mpf.050352",

language = "English",

pages = "1411--1421",

journal = "Proceedings of the Thermal and Fluids Engineering Summer Conference",

issn = "2379-1748",

publisher = "Begell House Inc.",

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TY - JOUR

T1 - Numerical and experimental modeling of two leaks behavior for water-air multiphase flow through a pipeline

AU - Ferroudji, Hicham

AU - Khan, Muhammad Saad

AU - Barooah, Abinash

AU - Rahman, Mohammad Azizur

AU - Hassan, Ibrahim

AU - Hassan, Rashid

AU - Sleiti, Ahmad K.

AU - Gomari, Sina Rezaei

AU - Hamilton, Matthew

PY - 2024

Y1 - 2024

N2 - Given that most petroleum companies simultaneously produce and transport both oil and gas, multiphase flows play a crucial role in the oil and gas industry. Common causes of pipeline leaks include corrosion, aging, and metal deterioration. When an incident occurs, the energy company not only incurs financial losses but also triggers safety and environmental concerns. Consequently, the development of a practical technique for simultaneously detecting leaks in pipelines becomes imperative. In the present study, a 3D numerical model is developed using Ansys-Fluent to investigate simultaneous leaks (the first leak measuring 3 mm and the second leak measuring 1.8 mm) within a pipeline. The numerical results are validated against experimental data collected from a flow loop system in the laboratory. Furthermore, the flow behavior in the pipeline and the surrounding area of the leaks is evaluated. For example, it is observed that the escape velocity of the gas phase through the leaks initially decreases significantly before gradually reaching a stable value.

AB - Given that most petroleum companies simultaneously produce and transport both oil and gas, multiphase flows play a crucial role in the oil and gas industry. Common causes of pipeline leaks include corrosion, aging, and metal deterioration. When an incident occurs, the energy company not only incurs financial losses but also triggers safety and environmental concerns. Consequently, the development of a practical technique for simultaneously detecting leaks in pipelines becomes imperative. In the present study, a 3D numerical model is developed using Ansys-Fluent to investigate simultaneous leaks (the first leak measuring 3 mm and the second leak measuring 1.8 mm) within a pipeline. The numerical results are validated against experimental data collected from a flow loop system in the laboratory. Furthermore, the flow behavior in the pipeline and the surrounding area of the leaks is evaluated. For example, it is observed that the escape velocity of the gas phase through the leaks initially decreases significantly before gradually reaching a stable value.

KW - Acoustic signal

KW - Computational Fluid Dynamics

KW - Dynamic pressure

KW - Leak detection

KW - Multiphase flow

KW - Turbulence

UR - http://www.scopus.com/inward/record.url?scp=85198626567&partnerID=8YFLogxK

U2 - 10.1615/TFEC2024.mpf.050352

DO - 10.1615/TFEC2024.mpf.050352

M3 - Conference article

AN - SCOPUS:85198626567

SN - 2379-1748

SP - 1411

EP - 1421

JO - Proceedings of the Thermal and Fluids Engineering Summer Conference

JF - Proceedings of the Thermal and Fluids Engineering Summer Conference

T2 - 9th Thermal and Fluids Engineering Conference, TFEC 2024

Y2 - 21 April 2024 through 24 April 2024

ER -

Numerical and experimental modeling of two leaks behavior for water-air multiphase flow through a pipeline

Abstract

Keywords

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