Numerical Investigation of Wall Shear Stress under Single-Phase and Two-Phase Flow in the Electrical Submersible Pump-Reference-Cited by-同舟云学术

Numerical Investigation of Wall Shear Stress under Single-Phase and Two-Phase Flow in the Electrical Submersible Pump

Published:2021-08-04 Issue: Volume:16 Page:158-167
ISSN:2224-347X
Container-title:WSEAS TRANSACTIONS ON FLUID MECHANICS
language:en
Short-container-title:

Author:

Hasan Abdulqader¹,Gadala Mohamed S.¹,Shahid Salman¹,Aris Mohd Shiraz²,Dol Sharul Sham³,Alavi Mohammed¹

Affiliation:

1. Department of Mechanical Engineering Abu Dhabi University Abu Dhabi, P. O. Box 59911, UNITED ARAB EMIRATES

2. TNB Research Sdn. Bhd. Kawasan Institusi Penyelidikan 43000 Kajang, MALYSIA

3. Department of Mechanical Engineering Abu Dhabi University Abu Dhabi, P. O. Box 59911, UNITED ARAB EMIRATES

Abstract

The effects of the wall shear stress on an Electrical Submersible Pump (ESP) was investigated in this paper. A CFD model in ANSYS Fluent was proposed to simulate actual single-phase and two-phase flow. The bottom hole pressure was minimized by utilizing the artificial lift methods. The flowing fluids in pumps and pipes causes shear stress on surface interacting. In multiphase flow application pump damages on head degradation as well as shear stress affects. The K-ω turbulence model and the multiphase Mixture approach with the sliding technique used to solve the Navier-Stokes equation. To study the effects of gas-liquid (air-water) flow on the ESP and the pump handle ability, the rotation speeds were varied while the other parameters were kept constant. The rotation speeds simulated were at 500, 900, 1500, 2000 and 2500 rpm meanwhile the water flow rate and gas flow rate were kept constant with 20 L/min and 1% fraction, respectively. The results obtained show that as the rotation speeds were increased, the less concentration of the bubbles were observed, moreover the wall shear stress (WSS) increases. Although, the wall shear stress in both single-phase and two-phase flow were tend to increase as the blades length increased, however for the single-phase flow the WSS was found higher in all the simulated rotational speeds.

Publisher

World Scientific and Engineering Academy and Society (WSEAS)

Subject

General Physics and Astronomy

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