SU1762080A1 - System of heat and water supply - Google Patents

Abstract

Use: in the systems of heat and water supply of residential buildings and industrial premises. Summary of the Invention: when a heat and water supply system is operated using a heat pump 21, heat from the return line 7 of the heat network is transferred to the spent brine, which leads to a decrease in the viscosity of the brine, a decrease in pressure in the separator 14 and an increase in the amount of steam produced in the separator 14. Reducing the temperature of the water in the return line 7 of the heating system leads to a decrease in the temperature of the mixture in the mixing chamber 11 of the first stage of the injector 10, which increases the stability of the operation of the injector, increases the steam consumption from the steam volume 18 of the separator 14 and the water from the source 3 and increases the water pressure heat line 7, which is used as a working fluid in the hydraulic actuator 25 of the compressor 24 of the heat pump 21. 1 sludge. cl

Description

The invention relates to heat and power engineering, in particular, to geothermal installations intended for supplying residential buildings and industrial premises with heat and hot water, and can be used in heat and water supply systems with injection of spent brine into geothermal wells.

The aim of the invention is to improve the economy and productivity by increasing the temperature of the injected brine and increasing the flow rate from the brine drainage well.

The drawing shows a schematic diagram of the system.

The heat and water supply system contains geothermal wells 1 and 2 of brine injection and removal, fresh water source 3, heat exchanger 4, jet pump, direct

and the return line 6, 7 of the heating system, the first of which is connected to the hot water supply line 8 and to the outlet 9 of the two-stage injector 10, and the second to the displacement chamber 11 of the first injector 10, the second-step mixing chamber 12 through which heated side 13 of the heat exchanger 4 is connected to a fresh water source 3, and a separator 14 connected to a well bore 2 for brine removal, connected by a liquid volume 15 and brine injection line 16 through the heating side 17 of the heat exchanger 4 and the jet pump 5 with the injection well 1, and Volume 18 - with working nozzles 19, 20 of the injector 10 and the jet pump 5. In addition, the system includes a heat pump 21 with an evaporator 22, a condenser 23 and a compressor 24 made

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with hydraulic actuator 25, the first of which is connected by heating side 26 to the return line 7 of the heating network, the second - heated side 27 - to the brine injection line 16 after the jet pump 5, and the third hydraulic actuator 25 is connected to the heating network through the working fluid 6. The direct and reverse lines 6, 7 of the heat network are connected to the heat consumer 28, and the brine injection line 16 is connected to a system 29 for extracting chemical elements from the brine.

When the heat and water supply system is operated using a heat pump 21, the heat from the return line 7 of the heating network is transferred to the spent brine, which leads to a decrease in the viscosity of the brine and the resistance of the well 1 injection of brine, a decrease in pressure in the separator 14 and, accordingly, an increase in the amount of vapor generated in the separator 14 and the flow of hot sal gas removed from the well 2. The decrease in water temperature in the return line 7 of the heating network leads to a decrease in the temperature of the mixture in the mixing chamber 11 of the first injector stage 10, h This increases the stability of the operation of the injector 10, increases the steam flow rate from the steam volume 18 of the separator 14 and the water from the fresh water source 3 and increases the pressure of water in the direct line 7 of the heat network, which is used as the working fluid in the hydraulic drive 25 of the heat compressor 24 pump 21.

The heat and water supply system provides for an increase in the consumption of hot brine from the well 2 and the recovery of the brine into the injection well 1, as well as an increase in the efficiency and stability of the injector 10 without using external energy sources.

Claims (1)

The invention includes a heat and water supply system containing geothermal brine injection and removal wells, a fresh water source, a heat exchanger, a jet pump, a direct and reverse heating network, the first of which is connected to the hot water supply line and to the outlet of a two-stage injector, and the second to the chamber mixing the first stage of the injector, the mixing chamber of the second stage through the heated side of the heat exchanger is connected to the fresh water source and connected to the well of the brine drainage separator connected by fluid volume and brine injection line through the heating side of the heat exchanger and the jet pump to the injection well, and the steam volume to the working nozzles of the injector and jet pump, characterized in that, in order to increase efficiency and productivity by increasing the temperature of the injected brine and increasing the flow rate from the brine drainage well, the system further comprises a heat pump with an evaporator, a condenser and a compressor made with hydraulic actuators, the first of which is the heating side on The second is the heated side to the brine injection line after the jet pump, and the third hydraulic drive is connected via working fluid to the direct main of the heating network. .// r-XJ- ------- J-i - j - - - -g26 B - 8 / l , „I / vjJ 22 15 ...-/:: jf -iW., -