RU2020127668A - METHOD FOR THE DEVELOPMENT OF DEPOSITS OF HARD TO RECOVERY HYDROCARBONS - Google Patents

Claims (2)

1. A method for developing fields of hard-to-recover hydrocarbons, including well equipment, preparation of working agents of influence and their phased injection into the near-wellbore zone of the productive formation, the method being carried out in three stages, the first of which is the stage of formation of a near-wellbore volume with increased permeability in the productive formation, and the second - cyclic thermochemical impact on the reservoir by working agents in the form of superheated steam with a high degree of superheating, subcritical water, supercritical water and / or ultra-supercritical water, with the selection of the target product at each stage of the day surface of the well in the well flowing mode, characterized in that that to implement the method, a cluster of horizontal wells is used, the horizontal sections of which are located in the zone of the productive formation, the supply of working agents to the productive formation and the selection of the target product from it is carried out through a casing string with heat with an insulating coating that is used to equip the vertical section of each well, for the implementation of the first stage in the horizontal section of each well, a one-stage hydraulic fracturing of the productive formation is carried out, followed by the selection of the target product - tight oil and the working medium used for hydraulic fracturing, after which they are pumped into the formed in the productive formation, a volume with increased permeability of each well of the working agent in the form of a hydrocarbon solvent, followed by impregnation of the near-wellbore volume of the productive formation with the solvent of the productive formation and the selection of the target product in the form of water, liquid and gaseous hydrocarbons, including dissolved resins and asphaltenes, as well as a hydrocarbon solvent, after which they proceed to the second stage, which is carried out cyclically, for several repeating cycles, during which a near-wellbore is formed in the near-wellbore volume of each well retort and increase its volume with each next cycle, and each of the cycles of the second stage includes pumping into the wells of the working agent in the form of water, with a temperature of 374°C to 593°C at a pressure of 22.1 MPa to 70 MPa, and then working agent in the form of water, temperature from 374°C to 593°C at a pressure of 22.1 MPa to 70 MPa, saturated with nanosized particles of metal oxides and hydrogen, followed by sampling from all wells of the target product in the form of a water-oil emulsion saturated with hydrocarbon and non-hydrocarbon gases, and cyclic exposure is carried out until the well retorts merge into a combined retort, after which the third stage of the method is started, for which at least one well is transferred to the injection mode of operation, and the rest - to the production mode, through at least one the injection well is injected with a working agent in the form of a WIADAP liquid, nanohydrothermal fracturing is performed, after that, the working agent is pumped into the combined retort in the form of water, with a temperature of 40 to 120 ° C at a pressure of 1-10 MPa higher than the hydrostatic pressure or pressure in the retort, by means of which the displacement from the combined in-situ retort to the day surface through the production wells of the target product in the form of an oil-in-water emulsion. 2. The method according to claim 1, characterized in that nanosized particles of aluminum oxide (Al2O3) or iron oxide (FeO, Fe2O3, Fe3O4), or zinc oxide (ZnO) synthesized in a reactor are used to saturate the working agent with nanosized particles of metal oxides oxidation generator of ultra-supercritical water.