Amin Tohidi scite author profile

After drilling a well, the stresses will be altered and the induced stresses present the new state of stress. These induced stresses which result in geomechanical problems. The studies indicate that the flow of hydrocarbon into the wellbore influences the induced stresses. Darcy equation has been used in the past; however, the laminar flow assumption embedded in this equation cannot correctly model the flow of fluid when a nonDarcy flow dominates near a wellbore. Example of such situation includes the gas wells.In this study, analytical equations are developed to incorporate the effect of nonDarcy flow on the induced stresses around a wellbore. These equations developed based on Forchheimer flow equation. Then the simplified solutions were presented by considering the second term of Forchheimer flow equation. It was found that the difference between the results from Darcy and nonDarcy flow models is proportional to the drawdown pressure.Further studies included numerical simulation of non-Darcy fluid flow in a typical reservoir.Comparison of the results with the analytical models indicated that the magnitude of stresses in non-Darcy flow is larger than of Darcy flow.Finally, sensitivity of the reservoir properties on the induced stresses in the non-Darcy flow regime was investigated.

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Comparing pull-out capacity of expandable anchors using discrete/coupled Eulerian element methods versus finite element technique

Amjadi

Mohammadkhanifard

Tohidi

et al. 2023

Marine Georesources & Geotechnology

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Analytical Solution to Study Depletion/Injection Rate on Induced Wellbore Stresses in an Anisotropic Stress Field

2017

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Amin Tohidi

Properties of Electroless Ni–B and Ni–P/Ni–B Coatings Formed on Stainless Steel

Nanograined Ti–Nb microalloy steel achieved by Accumulative Roll Bonding (ARB) process

The effect of Non-Darcy Flow on Induced Stresses Around a Wellbore in an anisotropic in-situ stress field

Comparing pull-out capacity of expandable anchors using discrete/coupled Eulerian element methods versus finite element technique

Analytical Solution to Study Depletion/Injection Rate on Induced Wellbore Stresses in an Anisotropic Stress Field

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