The shale reservoirs have ultralow permeability requiring hydraulically fracturing the formation to improve permeability and get a better well performance. The multistage hydraulic fractures system created from a horizontal well generates a complex fracture network with different conductivities within the stimulated reservoir volume. In this work we made parametric analyzes to assess the effects on producer well performance caused by the variation of different parameters within the complex network fractures created. These parameters were mainly: spacing in the un-propped fracture network, the conductivity in the unpropped fracture network, primary fracture conductivity, primary fracture spacing, the variation of permeability along the primary fractures and finally the variation of downhole pressures. Understanding the relationship between fracture network size, fracture spacing, proppant distribution, and fracture conductivity is critical to stimulation and completion design. Finally a simulation with water injection evaluating its impact on recovering oil and gas was carried out, and the possibility of applying this method of recovery in a fractured reservoir was evaluated.The shale reservoirs have ultralow permeability requiring hydraulically fracturing the formation to improve permeability and get a better well performance. The multistage hydraulic fractures system created from a horizontal well generates a complex fracture network with different conductivities within the stimulated reservoir volume. In this work we made parametric analyzes to assess the effects on producer well performance caused by the variation of different parameters within the complex network fractures created. These parameters were mainly: spacing in the un-propped fracture network, the conductivity in the unpropped fracture network, primary fracture conductivity, primary fracture spacing, the variation of permeability along the primary fractures and finally the variation of downhole pressures. Understanding the relationship between fracture network size, fracture spacing, proppant distribution, and fracture conductivity is critical to stimulation and completion design. Finally a simulation with water injection evaluating its impact on recovering oil and gas was carried out, and the possibility of applying this method of recovery in a fractured reservoir was evaluated.