2022
DOI: 10.1021/acs.energyfuels.2c00429
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A New Approach to Evaluate and Predict the Reservoir Performance of a Two-Phase Flow Coalbed Methane Well with Fully Coupled Time-Dependent Desorption and Pressure-Dependent Diffusivity Effects

Abstract: In coalbed methane (CBM) reservoirs, permeability changes dynamically throughout the life of the reservoir as the pressure depletes due to production. The dynamic variation of coal permeability mainly depends on the combined effect of effective stresses and coal matrix shrinkage caused by gas desorption. Under the conditions of pressure-dependent diffusivity in coal reservoirs, the flow mechanism in CBM reservoirs complicates the solution of the two-phase diffusivity equation. In this study, the authors presen… Show more

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Cited by 5 publications
(11 citation statements)
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“…Later on, to account for the heterogeneity of the cleat network, Upadhyay and Laik , and Neelu et al incorporated the n th exponent relationship between cleat permeability and porosity. Here, k i and φ i represent the initial cleat permeability and porosity, respectively, and α is a constant given by . The changes in cleat porosity and permeability with pressure depletion as established by eqs and , which lead to pressure-dependent diffusivity, can be accounted for in CBM flow equations by substituting k = αφ n in eq . Neelu et al presented a new pressure-transform, , in the form of stress-dependent adjusted pressure (SDAP) that reduces eq to a single-phase diffusivity equation. The SDAP transform includes the combined effect of two-phase flow and pressure-dependent diffusivity.…”
Section: Mathematical Modelmentioning
confidence: 99%
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“…Later on, to account for the heterogeneity of the cleat network, Upadhyay and Laik , and Neelu et al incorporated the n th exponent relationship between cleat permeability and porosity. Here, k i and φ i represent the initial cleat permeability and porosity, respectively, and α is a constant given by . The changes in cleat porosity and permeability with pressure depletion as established by eqs and , which lead to pressure-dependent diffusivity, can be accounted for in CBM flow equations by substituting k = αφ n in eq . Neelu et al presented a new pressure-transform, , in the form of stress-dependent adjusted pressure (SDAP) that reduces eq to a single-phase diffusivity equation. The SDAP transform includes the combined effect of two-phase flow and pressure-dependent diffusivity.…”
Section: Mathematical Modelmentioning
confidence: 99%
“…Several studies have established the relationship between coal cleat porosity and pressure by combining coal geomechanics with sorption-induced coal swelling/shrinkage. , In this study, the Palmer and Mansoori model is used to relate cleat porosity with pressure. Using matchstick geometry model, a cubic relation can be established between cleat permeability and porosity . Later on, to account for the heterogeneity of the cleat network, Upadhyay and Laik , and Neelu et al incorporated the n th exponent relationship between cleat permeability and porosity. Here, k i and φ i represent the initial cleat permeability and porosity, respectively, and α is a constant given by . The changes in cleat porosity and permeability with pressure depletion as established by eqs and , which lead to pressure-dependent diffusivity, can be accounted for in CBM flow equations by substituting k = αφ n in eq . Neelu et al presented a new pressure-transform, , in the form of stress-dependent adjusted pressure (SDAP) that reduces eq to a single-phase diffusivity equation.…”
Section: Mathematical Modelmentioning
confidence: 99%
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“…26 Neelu et al described the gas desorption equation and explained the desorption effect of diffusion rate and time. 27 Liu et al conducted gas adsorption and desorption tests under various pressure boundary circumstances, proposing a new desorption model. 28 Yang et al artificially changed the microstructure of coal by adding surfactants, improved the efficiency of gas extraction, and avoided the abrupt emission of mass gas.…”
Section: Introductionmentioning
confidence: 99%
“…Yan et al researched the effect of temperature on the gas desorption characteristics of anthracite, finding that higher temperatures led to increased desorption amount and diffusion coefficient . Neelu et al described the gas desorption equation and explained the desorption effect of diffusion rate and time . Liu et al conducted gas adsorption and desorption tests under various pressure boundary circumstances, proposing a new desorption model .…”
Section: Introductionmentioning
confidence: 99%