RU2111423C1 - Geothermal unit - Google Patents

Abstract

FIELD: power-plant engineering; heat supply from geothermal sources. SUBSTANCE: unit has geothermal well 1, separator 2, piping 3 carrying liquid phase of geothermal heat-carrying agent, delivery-water heat exchanger 4, piping 5 carrying gas phase of geothermal heat-carrying agent, burner 6, water boiler 7, gas storage device 8, flow regulator 9, diesel-electric set 10, stack gas heat recovery system. Gas outlet of separator 2 communicates through piping with gas storage device 8 and gas-fired diesel-electric set 10; delivery-water heat exchanger 4 is connected to stack-gas heat recovery exchanger 11 whose delivery-water outlet is connected to water boiler 7. EFFECT: improved design. 1 dwg

Description

 The invention relates to the field of power engineering and can be used for heat supply based on geothermal sources.

 Known geothermal device [1], containing geothermal wells, a separator of mechanical impurities, a heat exchanger for heating network water.

 The disadvantage of this device is that its scheme does not provide for the possibility of operation of the device on a gas-liquid geothermal coolant.

 The closest in technical essence to the claimed invention is a geothermal device [2] containing a geothermal well, a separator, a heat exchanger for heating network water, a gas phase pipeline of a geothermal coolant that can be connected to a burner for heating network water.

 The disadvantage of this device is that with its help the internal energy of the gas phase of the geothermal coolant is not fully used.

 The aim of the invention is to increase the efficiency of the device due to the efficient use of the internal energy of the gas phase of the geothermal coolant.

 The essence of the invention lies in the fact that the geothermal device comprises a geothermal well, a separator, a heat exchanger for heating network water, a hot water boiler of network water. What is new is that the gas separator output is connected by a pipeline to a gas storage device and a gas-powered diesel generator, and a flue gas heat recovery system.

As a result of the presence of these essential features, the device acquires the following new properties:
1. The ability to generate electricity.

 2. Autonomy of the geothermal device due to the generation of electricity for own needs and the accumulation of the gas phase of the geothermal coolant.

 A diagram of the proposed device is shown in the drawing.

 The device comprises a geothermal well 1, a separator 2, a liquid phase pipeline of a geothermal coolant 3, a network water heat exchanger 4, a gas phase pipeline of a geothermal coolant 5, a burner 6, a boiler 7, a gas storage device 8, a flow controller 9, a diesel generator 10 with a recycling system flue gas heat 11.

 Geothermal device operates as follows.

 The geothermal mixture from the geothermal well 1 enters the separator 2. The liquid phase of the geothermal coolant through the pipe 3 enters the heat exchanger 4 and leads to the primary heating of the network water. The excess gas phase of the geothermal coolant through the pipeline 5 goes to the burner 6 of the boiler 7 using the flow controller 9. In the boiler, the final heating of the network water is carried out. The main part of the gas phase enters the gas storage device 8. From the gas storage device, gas is piped to a diesel generator 10 operating on gas. Intermediate heating of the network water is carried out in the heat exchanger 11 due to the heat recovery of the flue gases.

 Using the combination of the above design solutions, the efficient use of the energy of the geothermal heat carrier accumulated in the liquid phase and the internal energy of the gas phase of the geothermal heat carrier is ensured not only for heating network water, but also for generating electricity.

Claims (1)

 A geothermal device comprising a geothermal well, a separator, a heat exchanger for heating network water, a hot water boiler with a gas burner, characterized in that the device further comprises a gas storage device, a diesel generator, a heat exchanger for utilizing the heat of the exhaust gases, and the gas phase leaving the separator is connected pipelines with a gas storage device and then with a gas-powered diesel generator, and the outlet of the heat exchanger for heating network water is connected by a pipeline to the heat exchanger for heat recovery from the flue gases, the output of which is connected on the network water to the boiler.