Gas from shale reservoirs is difficult
to produce, unless they
are effectively stimulated. Production from wells completed in these
quad-porosity reservoirs is dependent on the placement of hydraulic
fractures and their degree of connectivity to the existing natural
fractures. These propped fractures and their effectiveness is a direct
function of the in situ stress in the formation.
Furthermore, geochemical diagenesis in the created fractures significantly
impacts fracture conductivity. This paper utilizes a fracture-completed
horizontal well in different configurations of quad-porosity shale
gas reservoir models to assess the effect of gas flow and storage
in these systems on production parameters. Furthermore, sensitivity
analysis is carried out on critical parameters to observe its impact
on well performance. This work will help to provide a better understanding
of hydraulic fracturing treatments and its effect on the forecast
of a stimulated well with reasonable certainty.
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