RU2008131584A - METHOD FOR THERMAL DEVELOPMENT OF SOLID HYDROCARBON DEPOSITS AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. The method of thermal development of deposits of solid hydrocarbons, mainly gas hydrates, comprising drilling a deposit crossing at least one producing well with a system of horizontal side sections, generating a thermal field and taking hydrocarbons from the formation, characterized in that at least one pair of wells: injection and production, horizontal trunks of which are made in parallel, and directed towards each other, the supply of hot coolant from the source of thermal energy to the heating well and pumping out the obtained hydrate decomposition products - gas and water is carried out through the production well, and the hydrate decomposition products are fed for separation into a separator, characterized in that a nuclear reactor is used as a thermal energy source, to which a discharge reactor is also connected a recirculation pipeline communicating with the cavity between the production and the tubing string and the tubing string, while the tubing string is plugged into the bottom her part and has a perforation in the horizon of the productive formation. ! 2. The method according to claim 1, characterized in that the continuous forced circulation of the coolant is carried out by means of a pump installed between the nuclear reactor and the tubing of the heating wells. ! 3. A device for the thermal development of solid hydrocarbon deposits, containing at least one producing well, containing a production string with a horizontal section and at least one heating well, having k

Claims (7)

1. The method of thermal development of deposits of solid hydrocarbons, mainly gas hydrates, comprising drilling a deposit crossing at least one producing well with a system of horizontal side sections, generating a thermal field and taking hydrocarbons from the formation, characterized in that at least one pair of wells: injection and production, horizontal trunks of which are made in parallel, and directed towards each other, the supply of hot coolant from the source of thermal energy to the heating well and pumping out the obtained hydrate decomposition products - gas and water is carried out through the production well, and the hydrate decomposition products are fed for separation into a separator, characterized in that a nuclear reactor is used as a thermal energy source, to which a discharge reactor is also connected a recirculation pipeline communicating with the cavity between the production and the tubing string and the tubing string, while the tubing string is plugged into the bottom her part and has a perforation in the horizon of the productive formation. 2. The method according to claim 1, characterized in that the continuous forced circulation of the coolant is carried out by means of a pump installed between the nuclear reactor and the tubing of the heating wells. 3. A device for the thermal development of deposits of solid hydrocarbons, containing at least one producing well containing a production string with a horizontal section and at least one heating well having a casing string with a horizontal section in the horizon of the reservoir, in which a tubing string has been installed, connected to a coolant circulation inlet pipe, connected in turn to a heat energy source, characterized in that in ETS heat source using a nuclear reactor to which is also connected a discharge recirculation conduit communicating with the cavity between the production tubing string and tubing, the string of tubing is plugged at the bottom and has perforations in the producing formation horizon. 4. The device according to claim 3, characterized in that the horizontal sections of production and casing strings are made in parallel. 5. The device according to claim 4, characterized in that the horizontal sections of the production and casing strings are made alternating at the same horizontal level, or at several levels. 6. The device according to claim 4, characterized in that the horizontal sections of the production and casing strings are made at different levels, while the horizontal sections of the production strings are located higher. 7. A device according to any one of claims 3 to 6, characterized in that a separator is installed at the outlet of the tubing of the production wells, the first outlet of which is connected to the storage tank, and the second to a water discharge pipe.