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numerical modeling of borehole breakouts formation in various stress fields using a higher-order displacement discontinuity method (hoddm)
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نویسنده
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abdollahipour abolfazl ,fatehi marji mohammad
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منبع
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ژئومكانيك نفت - 2021 - دوره : 4 - شماره : 3 - صفحه:1 -18
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چکیده
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Borehole breakouts can be modelled by the propagation of cracks in the vicinity of wellbores. coalescence of these cracks with a series of formed sub-parallel cracks leads to a breakout. using fracture mechanics principles, the propagation of cracks in the vicinity of wellbores resulting in the final formation of breakouts is investigated. an indirect bem with higher order elements has been used to numerically simulate cracks propagation. various configurations of cracks placement around a wellbore are analyzed. numerical results showed that the ratio of stresses normal to wellbores’ axis has a significant effect on breakouts final shape. for a given lower normal stress, higher stress ratios lead to wider breakouts, eventually leading to wellbore instability. furthermore, for a given higher normal stress, higher stress ratios tend to form deeper breakouts with a limited width increase. hydrostatic stress field can be completely stable or unstable depending on a threshold stress value.
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کلیدواژه
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borehole breakout ,wellbore stability ,indirect bem ,crack propagation ,fracture mechanics
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آدرس
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university of tehran, college of engineering, school of mining engineering, iran, yazd university, faculty of mining and metallurgical engineering, iran
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پست الکترونیکی
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mohammad.fatehi@gmail.com
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Numerical modeling of borehole breakouts formation in various stress fields using a Higher-Order Displacement Discontinuity Method (HODDM)
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Authors
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Abdollahipour Abolfazl ,Fatehi Marji Mohammad
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Abstract
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Borehole breakouts can be modelled by the propagation of cracks in the vicinity of wellbores. Coalescence of these cracks with a series of formed sub-parallel cracks leads to a breakout. Using fracture mechanics principles, the propagation of cracks in the vicinity of wellbores resulting in the final formation of breakouts is investigated. An indirect BEM with higher order elements has been used to numerically simulate cracks propagation. Various configurations of cracks placement around a wellbore are analyzed. Numerical results showed that the ratio of stresses normal to wellbores’ axis has a significant effect on breakouts final shape. For a given lower normal stress, higher stress ratios lead to wider breakouts, eventually leading to wellbore instability. Furthermore, for a given higher normal stress, higher stress ratios tend to form deeper breakouts with a limited width increase. Hydrostatic stress field can be completely stable or unstable depending on a threshold stress value.
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Keywords
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Borehole breakout ,wellbore stability ,Indirect BEM ,Crack propagation ,Fracture mechanics
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