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VOL. 11, ISSUE 11 (2024)
Advanced design methodologies for well completion screen pipes in ultra-deep carbonate reservoirs
Authors
Syed Murtajiz Hussain Rizvi
Abstract
Ultra-deep carbonate reservoirs, particularly those located in
high-stress environments like the Tarim Basin's Fuman Block, present
significant challenges for well completion systems due to extreme pressures,
temperatures, and complex geomechanical conditions. This review paper explores
the current advancements and design methodologies for well completion screen
pipes, focusing on overcoming challenges such as sand production, reservoir subsidence,
wellbore collapse, and material degradation in ultra-deep carbonate formations.
It covers recent innovations in screen materials, structural designs, and sand
control technologies, with a focus on tailoring solutions to the unique
characteristics of carbonate reservoirs. The paper also highlights the role of
numerical simulations, such as Finite Element Method (FEM) and Computational
Fluid Dynamics (CFD), in optimizing screen pipe performance by predicting
stress distribution, fluid flow, and sand transport behaviors. By examining
current research and field data, the review provides actionable insights for
improving well completion systems' durability, efficiency, and safety in
ultra-deep carbonate reservoirs. The expected outcomes include enhanced well
productivity, reduced operational risks, and minimized environmental impacts.
The paper concludes by outlining future directions for continued research,
emphasizing real-time diagnostic technologies, adaptive completion systems, and
improved modeling techniques.
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Pages:34-37
How to cite this article:
Syed Murtajiz Hussain Rizvi "Advanced design methodologies for well completion screen pipes in ultra-deep carbonate reservoirs". International Journal of Multidisciplinary Research and Development, Vol 11, Issue 11, 2024, Pages 34-37
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