Abstract
In oil drilling, one of the most complicated problems is borehole stability of shale. Based on the theory of continuum damage mechanics, a modified Mohr-Coulomb failure criterion according to plastic damage evolution and the seepage-stress coupling is established. Meanwhile, the damage evolution equation which is based on equivalent plastic strain and the permeability evolution equation of shale are proposed in this paper. The physical model of borehole rock for a well in China western oilfield is set up to analyze the distribution of damage, permeability, stress, plastic strain and displacement. In the calculation process, the influence of rock damage to elastic modulus, cohesion and permeability is involved by writing a subroutine for ABAQUS. The results show that the rock damage evolution has a significant effect to the plastic strain and stress in plastic zone. Different drilling fluid density will produce different damage in its value, range and type. This study improves the theory of mechanical mechanism of borehole collapse and fracture, and provides a reference for the further research of seepage-stress-chemical-damage coupling of wall rock.
Highlights
I n oil drilling, the study of borehole stability is a complicated task which involved with many factors
Rock strength and elastic modulus will decrease obviously. All of this can effects the result of force analysis, so it is necessary to involve the damage in seepage-stress coupling calculation of wall rock
According to a fluid-solid coupling theory, the concept of seepage coupled with plastic damage evolution is brought into Mohr-Coulomb failure criterion
Summary
I n oil drilling, the study of borehole stability is a complicated task which involved with many factors. I f the stress exceeded rock strength at the condition of fluid-solid coupling, plastic deformation will be produced in wall rock. By considering the disturbance damage and rock permeability changes during drilling, the stress distribution and influence of drilling fluid density is studied.
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