An Analytical Model for Production Analysis of Hydraulically Fractured Shale Gas Reservoirs Considering Irregular Stimulated Regions

Abstract: Shale gas reservoirs are typically developed by multistage, propped hydraulic fractures. The induced fractures have a complex geometry and can be represented by a high permeability region near each fracture, also called stimulated region. In this paper, a new integrative analytical solution coupled with gas adsorption, non-Darcy flow effect is derived for shale gas reservoirs. The modified pseudo-pressure and pseudo-time are defined to linearize the nonlinear partial differential equations (PDEs) and thus the … Show more

“…In addition to numerical methods, analytical methods have been adopted to predict gas production from shale reservoirs. , For example, Stalgorova and Mattar used an analytical approach to model a reservoir with a multifractured well with the assumption that the fractures have the same length and conductivity. Besides such approaches, the traditional Arps method and decline curve analysis (DCA) have also been predominantly used in predicting gas production .…”

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

“…In addition to numerical methods, analytical methods have been adopted to predict gas production from shale reservoirs. , For example, Stalgorova and Mattar used an analytical approach to model a reservoir with a multifractured well with the assumption that the fractures have the same length and conductivity. Besides such approaches, the traditional Arps method and decline curve analysis (DCA) have also been predominantly used in predicting gas production .…”

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

Optimized long short-term memory (LSTM) network for performance prediction in unconventional reservoirs

Editorial on Special Issues of Development of Unconventional Reservoirs