Author:
Joshi Nishant,Khapre Akhilesh,Keshav Amit,Poonia Anil Kumar
Abstract
Abstract
During an oil and gas well drilling the drilling fluids are pumped through the drill string to cool and lubricate the drill bit. This also serves the purpose of bringing the rock cutting back to surface and serves various other purposes also like pressure control and maintain well bore stability. As the well is drilled the casing are lowed from the well from caving in. This results in a situation where there is an annular flow of drilling fluid where the inner pipe is rotating while the outer pipe is stationary. The understanding of fluid dynamics of such situation is extremely important and detailed investigations are required. Though experimental investigation will reflect the actual behavior but with the advancement is the numerical techniques such experimentation can be avoided with the application of computational fluid dynamics. Therefore, the present study employs the homogeneous model to simulate a single-phase fluid flow and predict pressure loss variation in eccentric vertical annuli as a function of varying drilling parameters: fluid velocity, inner pipe rotation speed
Subject
General Physics and Astronomy
Reference10 articles.
1. Well Control;Dareing,2019
2. Selecting the most appropriate model for rheological characterization of synthetic based drilling mud;Adewale;Int. J. Appl. Eng. Res.,2017
3. Non-Newtonian fluid flow dynamics in rotating annular media: Physics-based and data-driven modeling;Ershadnia;J. Pet. Sci. Eng.,2020
4. Numerical study of parameters affecting pressure drop of power-law fluid in horizontal annulus for laminar and turbulent flows;Ferroudji;J. Pet. Explor. Prod. Technol.,2019
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