Numerical simulation of flow through a wellbore for horizontal wells

Abdulwahid, Mohammed A.; Dakhil, Sadoun Fahad; Kumar, I. N. Niranjan

doi:10.2495/cmem130111

Cited by 2 publications

(3 citation statements)

References 5 publications

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“…The result showed that the pressure drop due to acceleration was significant and equal to 30% of the total pressure and friction pressure drop due to perforation was neglected. Abdulwahid et al [11] provided a numerical simulation model of a pipeline flow with two perforations, one on the upper and one on the lower surface. Using ANSYS to analyse the overall pressure drops, the static pressure, and the average wall shear stress distribution of a horizontal well with a diameter of 22 mm and a length of 1 m. There are two perforations with perforation diameters of 0.006 m and 0.003 m. It is used the RNG (k-ε) model in the plane of symmetry model.…”

Section: Introductionmentioning

confidence: 99%

Numerical Study of flow-through the perforations for angle perforation 180° and 90° in horizontal wellbore

Mustafa¹,

Rishak²,

Abdulwahid³

2022

Proceedings of 2nd International Multi-Disciplinary Conference Theme: Integrated Sciences and Technologies, IMDC-IST 2021, 7-9

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A numerical study is carried out on the perforation pipes with phase angles of 180° and 90° in a horizontal wellbore. To understand the effect of the above two-phase angles on the flow inside the wellbore, the CFD simulation of computational fluid dynamics is used. ANSYS FLUENT's simulation of the flow in the well has been used to calculate the pressure drop, friction factor, wall shear stress, productivity index, etc. The standard (k − 𝜀) model has been used to predict the turbulent behavior of radial flow. The conclusion showed that the overall pressure drop increase as the flow rate ratio increase which leads to an increase in the radial flow through the perforations, thereby keeping the axial flow through the pipe constant. Therefore, the percentage error of the total pressure drops for the phasing of the 180° and 90° perforations in test 5 is about 5.4 %. In addition, the main flow increases when the flow through the perforation increases, and this leads to an increase in the average of wall shear stress.

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Section: Introductionmentioning

confidence: 99%

Numerical Study of flow-through the perforations for angle perforation 180° and 90° in horizontal wellbore

Mustafa¹,

Rishak²,

Abdulwahid³

2022

Proceedings of 2nd International Multi-Disciplinary Conference Theme: Integrated Sciences and Technologies, IMDC-IST 2021, 7-9

View full text Add to dashboard Cite

show abstract

“…To validate the present study, the research of Abdulwahid et al [13] is used. They used CFD to simulate a perforated pipe.…”

Section: Model Validationsmentioning

confidence: 99%

“…Abdulwahid et al [13] analyzed the total pressure, static pressure and wall shear distributions along 1m of horizontal wellbore and diameter of 0.022 m, with two perforations, which the diameter for perforations is 0.006 m and length is 0.003 m, using ANSYS FLUENT and RNG k-ε model in a symmetry plane. Farajpourlar et al [14] studied the major and minor pressure losses, depending on Bernoulli's principle in a single phase gas flow for vertical pipe (with and without perforation) through three images; hydrostatic, frictional and kinetic.…”

Section: Introductionmentioning

confidence: 99%