Prediction of gas production rate from shale gas reservoirs using a micro–macro analysis

Abstract: Shale gas has become one of the important contributors to the global energy supply. The declining pattern of the gas production rate with time from an unconventional gas reservoir is due to the depletion of shale gas stored in the nanovoids of the shale formation. However, there are only limited ways to predict the variation of the gas production rate with time from an unconventional gas reservoir. This is due to the multiple transport mechanisms of gas in nano-scale pores and changes in shale gas permeability… Show more

“…A set of field data (including both geological and engineering parameters) is prepared and used as input in Comsol Multiphysics to investigate the impacts of kerogen pore volume, kerogen permeability, inorganic matrix permeability, fracture permeability, effective stress, and Langmuir parameters on shale gas reservoir production performance. − Most simulation approaches first establish a base case model, which is an extract from the field-scale model, upon which sensitivity analysis is performed after verifying model accuracy with the field data or analytical data. − ,− For example, Zhang et al used only the gray portion (a quarter of the entire domain) of the production area to simulate and analyze, because of the symmetry of the production area, as shown in Figure a. Tian et al extended the base case model to a field-scale model by 10 times to quantitatively classify the domain contribution, as shown in Figure b.…”

Hydraulic Fracturing and Enhanced Recovery in Shale Reservoirs: Theoretical Analysis to Engineering Applications

“…A set of field data (including both geological and engineering parameters) is prepared and used as input in Comsol Multiphysics to investigate the impacts of kerogen pore volume, kerogen permeability, inorganic matrix permeability, fracture permeability, effective stress, and Langmuir parameters on shale gas reservoir production performance. − Most simulation approaches first establish a base case model, which is an extract from the field-scale model, upon which sensitivity analysis is performed after verifying model accuracy with the field data or analytical data. − ,− For example, Zhang et al used only the gray portion (a quarter of the entire domain) of the production area to simulate and analyze, because of the symmetry of the production area, as shown in Figure a. Tian et al extended the base case model to a field-scale model by 10 times to quantitatively classify the domain contribution, as shown in Figure b.…”

Hydraulic Fracturing and Enhanced Recovery in Shale Reservoirs: Theoretical Analysis to Engineering Applications