Abstract
Based on non-Darcy flow theory in tight gas reservoirs, a new deliverability equation of fractured vertical gas well in pseudo-steady state is presented with the consideration of the stress-sensitive effect, and the open flow capacity calculation formula of gas well has been also derived. With the new deliverability equation, the effects of stress-sensitive coefficient, fracture parameters and matrix permeability on the productivity of gas well have been analyzed. The computation across an instance shows that due to the stress-sensitive effect, the IPR curves bend over to the pressure axis and the productivity of gas well is lower than that derived from the equation without consideration of stress-sensitive effect under the same pressure drop. As the stress-sensitive coefficient increasing, the well productivity becomes lower, the decline rate of production is higher and the IPR curve bends over in earlier stage with a greater bending. Besides, the productivity is affected by and has a positive correlation with the length and conductivity of fracture, namely that it becomes lower as the length and conductivity of fracture decreasing. Matrix permeability has an apparent impact on the productivity. If matrix permeability is extremely low, gas well cannot achieve the industrial production even after fracturing. As the matrix permeability increasing, stimulation results are significant.
Highlights
Tight gas reservoirs have features of tiny pores, narrow throats and extremely low permeability
Based on non-Darcy flow theory in tight gas reservoirs, a new deliverability equation of fractured vertical gas well in pseudo-steady state is presented with the consideration of the stress-sensitive effect, and the open flow capacity calculation formula of gas well has been derived
Study on productivity of fractured vertical well in above documents all contain the assumptions that boundary conditions are constant pressure and the flow is in steady state, which cannot be appropriate for the pseudo-steady state in reservoirs
Summary
Tight gas reservoirs have features of tiny pores, narrow throats and extremely low permeability. Based on the theory of steady-state flow, Xiong et al (2012) used the concept of pseudo-pressure to obtain the deliverability equation for predicting the performance of fractured vertical well in low-permeability gas reservoirs. During the depletion in oil or gas reservoirs, flow in pseudo-steady state begins when the pressure wave reaches the closed boundary with the feature that the decrements of pressure at points from borehole walls to boundary gradually tend to be the same It is significant for the development of tight gas to investigate the characteristics of IPR curve in this pseudo-steady state. A percolation model of pseudosteady flow with the consideration of stress-sensitive effect was proposed to derive a deliverability equation of fractured vertical gas well featuring the non-linear flow of gas. Due to xfsh(2ne) ) 2wf, it can obtain Eq (8) as qscðn; tÞ x2f shð2neÞ À x2f shð2nÞ x2f shð2neÞ À2xfwf qscðtÞ
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