RU2004889C1 - Hydrogeothermal plant for releasing heat from granite earth layer - Google Patents

Description

bam downhole. The heat exchanger 16 is connected to pipes installed in the lift well.

The device operates as follows. Fresh water, mechanically and chemically purified in the local treatment facilities 10, is fed through the head 12 of the downhole 1 by the pump unit 5 to the well 1 to a depth determined by special calculations.

From well 1, water enters a hydrogeotherm chamber 3, in which there is heat of the required industrial temperature. Here, the water is converted into a superheated steam-coolant mixture with a predetermined temperature. The coolant through the filter hole of column 6 of well 2 rises to the earth's surface due to differences in the density and temperature of surface water in well 1 and a pair of coolant in the hydrogeothermal chamber. The optimal heat transfer mode, determined in each individual case by a special calculation of the coolant flow rate, is regulated by the throttle 17 of the well 2. Next, the coolant through the pumping station enters the heat exchanger to the consumer 16. In the process of the consumer using the coolant, it turns back into water. The cooled water again enters the sewage treatment plant 10, after which the duty cycle of the water-coolant-water system is repeated again. The installation is started, adjusted and turned off during operation by push-button control located on the head 12 of the well 1 and overlapping the throttle on the head 17 of the well 2.

Technical appraisal and economic benefits. The hydrogeothermal installation (GSTU), in contrast to the geothermal installations that existed up to now, represents a more advanced design of a new class, taking into account the influence on the heat transfer of the Earth of the entire sum of hydrogeological factors; for the first time, the industrial heat of the Earth's geothermal gradient can be obtained by the most advanced technology - GSTU in areas remote from volcanic and active tectonic regions; the constant supply of the Earth’s natural free source of heat allows its year-round use by the installation; using GSTU the heat of the granite layer of the Earth can be obtained and

use everywhere on materials; the heat produced by the GSTU installation is completely isolated from the surrounding rocks and groundwater, from the harmful leaching effect, which preserves the ecologists and the natural regime of the earth's interior; The GSTU installation together with the hydrogeothermal chamber is itself protected from internal calmatage (clogging of equipment with leach deposits), which ensures its operation duration up to 100 years or more; GSTU is a fuel-free installation, as a result of which traditional types of fuel are saved up to 100%: coal, oil, gas, etc .; GSTU - non-waste, environmentally friendly production; GSTU is simple in design, easy to manage the operation process and requires a minimum of staff; the isolation of the operation of one installation on an area of 100 square kilometers with a population of 300,000 or more people allows us to consider it as a small energy base of the country in addition to powerful energy carriers; with the massive universal construction of the GSTU, the energy crisis in the national economy is eliminated; the efficiency of GSTU is 95-98%; the construction and operation of GSTU acquires a special effect beneficial for the people both in densely populated areas and in permafrost distribution zones (in Russia this is more than half of the territory), in polar regions, as well as in areas where the possibilities of obtaining traditional types of fuel are limited or where there is a large environmental pollution; GSTU productivity of at least 8-10 MW / h, increases with the dimensions of the installation and with the deepening of the hydro-geothermal chamber, which should be taken into account in each specific GSTU project; GSTU, laid to a depth of 4.5-5.5 km, can produce a coolant with a temperature of 300 ° C and above. This heat can be used for processing into electricity using steam turbines, followed by the use of 100 ° condensate for heat supply.

(56) 1 Integrated use of alternative energy sources. Materials of the Soviet-Italian Symposium 1982, 4.I.M., ENIN, 1982.

2. Berman E. Geothermal energy. M., World, 1978.

Claims (1)

The claims HYDROGEO-THERMAL INSTALLATION. ON REMOVAL OF HEAT FROM THE EARTH'S GRANITE LAYER, containing a pump unit connected to casing pipes installed with a clearance in the lowering and lifting wells connected to the chamber formed in the Earth layer by means of a nuclear explosion and a heat exchanger connected to the pipes connected to the pipes a lifting well, characterized in that, in order to ensure versatility and increased efficiency, it is equipped with special treatment facilities connected to the pump unit, the aforementioned gap is cemented, and the casing pipes in the downhole and uphole wells are covered with an anti-corrosion coating and are made of materials with different thermal conductivity, and the thermal conductivity of the pipes in the downhole is higher than the thermal conductivity of the pipes in a lifting well, and in the bottom of the last1 an additional perforated filter is placed,