SU1710711A1 - Method for geothermal power production - Google Patents

Abstract

The invention relates to the mining industry, namely to geothermal energy. The goal is to increase the efficiency of geothermal energy recovery by ensuring a uniform distribution of the heat transfer fluid in fracturing fracture systems. Open the geothermal array injection well (C), which has an inclined interval. On the inclined interval of this C, a series of vertical hydraulic fracturing of rocks is conducted and a fracture system (ST) is formed. Determine the hydraulic resistance of the selected groups of CT; Mining With drilled so. so that its sloping interval crossed the ST, the column of internal pipes is installed in the discharge C. On the inclined part of the column of internal pipes between the cracks of the hydraheath. belonging to different groups of cracks (HT), the element that packers the annulus is installed, the coolant is injected through the column of internal pipes into the first HT, and through the annulus into the second HT. The distribution of the coolant between the first and second GTs is carried out by adjusting valves installed on the refiner C. The flow rates to each GT are adjusted in accordance with their hydraulic resistance. Heated in GT to the temperature of rocks, the coolant through the mining C is brought to the surface of the earth, 1Cp. f-ly, 1 il.SPso ^

Description

The invention relates to geothermal energy and can be used to extract thermal energy of rocks.

A known method for extracting geothermal energy, including drilling of injection and production wells crossing geothermal formations, pumping coolant through hydraulically parallel-connected geothermal formations, mixing heat-transfer fluids heated in different formations, and diverting their mixture to the surface of the Earth, to increase the heat distribution of formations having different permeability and penetration of their mixture to the surface of the Earth The hydraulic resistance of each reservoir is pre-determined and modified according to a certain relationship.

Claims (1)

However, this method of increasing the degree of geothermal energy extraction is not applicable to extracting geothermal energy from hot rocks, where the injection and production wells have a large number of hydraulic fracturing and the hydraulic resistance of the fractures changes unpredictably during their operation. The closest to the proposed technical solution is the geothermal energy drive, including the drilling of injection and production wells having sloping intervals, the formation of vertical fracture fracturing systems and the fracture well and production well at slope intervals of wells. In addition, in this method, the flow rate of the coolant is controlled between fracture systems located at different depths. The disadvantage of the known method is low heat fracturing of the systems due to different distribution (spreading) of the heat transfer fluid in the cracks due to their difference in opening and dimensions, which reduces the degree of geothermal energy extraction from systems consisting of a large number of cracks. The purpose of the invention is to increase the efficiency of extracting geothermal energy by ensuring a uniform distribution of heat transfer media in cracks. This goal is achieved by the fact that in the method of extracting geothermal energy, including drilling, injection and production wells with inclined sections in their bottomhole sections, formation of inclined sections of vertical fracturing systems in the rocks between the wells, pumping the coolant from the injection well into the mine through the system of cracks, the system of cracks is divided into groups, the hydraulic resistance of each group is determined, and the coolant is pumped in separate streams through each a group of cracks, with the flow rate being adjusted in accordance with the hydraulic resistance of the group. Another difference is that the groups of cracks in the system are separated by blocking the injection well between the cracks of the system, and the input of the coolant to the groups of cracks is carried out through the string of internal pipes and the annulus of the injection well. The uniform distribution of the heat carrier in cracks is due to a decrease in the number of cracks in the cracks. which regulates the flow of the coolant, which ensures close speed of movement of the thermoneconective fronts and simultaneous working of cracks. The drawing shows the implementation of the method for extracting geothermal energy. The scheme contains injection 1 and production 2 wells, fracture system 3, a string of internal pipes 4, element 5. a packer annulus, control valves 6. The method is as follows. Drill the injection well 1, which has an inclined interval. With the help of a hydraulic fracturing of rocks in the inclined interval of this well, a system of cracks 3 is formed. A production well 2 is drilled so that its inclined interval intersects the fracture fractures. A column of inner pipes 4 is installed in the injection well. In the inclined section of the inner pipe string between the fractures, an element 5 packerting the annulus is installed to eliminate the hydraulic connection in the injection well between the groups of fractures I and II thus formed. The heat carrier is injected through the column of internal pipes into the group of fractures I, and through the annulus of the injection well into group II. In this case, the distribution of the amount of coolant in groups I and I is carried out using control valves 6 by changing the hydraulic resistance of the annulus (for II) and the column of internal pipes (for I) of the injection well. Heated in the cracks up to the temperature of rocks, the coolant from the groups of cracks through the production well is brought to the surface of the Earth. The use of this method of extraction of geothermal energy in the field of geothermal energy. will allow to reduce the construction costs of the petrogeothermal circulation system and increase its service life. Claim 1. Geothermal anergy extraction method, including drilling of injection and production wells with inclined sections of their downhole part, formation of rocks in the rocks between the wells in the interval of their inclined sections of vertical fracture fracturing systems, pumping heat transfer fluid from the injection well into the production well; about oh and h