RU2190812C1 - Geothermal water energy utilization method - Google Patents

Abstract

FIELD: geothermal water energy utilization for heat supply to miscellaneous users. SUBSTANCE: method includes transmission of geothermal water heat energy through intermediate heat-transfer apparatuses to secondary heat-carrying agent using chemical energy of dissolved gases as additional energy source with aid of primary and secondary separators; used as additional energy source is associated potential energy of geothermal water and as potential-energy users, expander and compressor mounted on common shaft; gas-holder and gas- distribution center are used for utilizing energy of dissolved gases. EFFECT: enhanced thermal efficiency of energy utilization without using additional energy sources. 1 dwg

Description

 The invention relates to the field of energy, and more specifically to the field of use and utilization of energy of geothermal waters and can be used for heat supply for various purposes.

The reserves of most geothermal deposits have low and medium temperatures and this does not allow them to be competitive with traditional energy sources and inhibits the development of geothermal energy. At the same time, in many exploited geothermal deposits wellhead overpressures exceed 5-10 MPa and more, and such waters contain a significant amount of dissolved gases of organic origin, reaching 4-5 m ³ / m ³ or more. The methane content in these waters exceeds 90%. During the exploitation of deposits, these types of energies are not utilized.

 A known method of utilizing the energy of geothermal waters (see ed. St. USSR 1615488, class F 24 J 3/08, publ. 23.12.1990). With this method, the utilization of the energy of geothermal water occurs by transferring heat energy of the geothermal water through intermediate heat exchangers to the secondary heat carrier using the dissolved gases as an additional energy source through the use of primary and secondary separators.

 The disadvantage of this method is that it does not use the additional potential energy of thermal water.

 The aim of the present invention is to increase the thermodynamic efficiency of the utilization of thermal water energy.

 This goal is achieved by transferring the thermal energy of geothermal water through intermediate heat exchangers to the secondary heat carrier using the chemical energy of dissolved gases as an additional source of energy through the use of primary and secondary separators, characterized in that the associated potential energy of geothermal water is used as an additional energy source, and in as potential energy converters use an expander and a compressor on th shaft, and for dissolved gases and energy use gasholder gas distribution point.

 The drawing shows a flow chart of the proposed method. Thermal water from the geothermal well 1 is sent to the primary heat exchanger 2, where the secondary coolant is heated, which is then sent to the consumer of high potential heat. Next, the waste water enters the expander 3 for the utilization of potential energy. From the expander, low-pressure thermal water enters the separator 4. The liquid phase of the energy carrier from the separator is sent to the drain, and the separated gas enters the compressor 5, the drive of which is carried out by the expander 3. From the compressor, gas with high pressure and temperature is sent to the secondary heat exchanger 6, to which the heated fresh water from the public water supply system 10 is also supplied countercurrently. From the heat exchanger 6, the cooled gas is sent to the secondary separator 7, from where the condensate goes into the drain, and is drained gas flows to gas tank 8. From the gas tank, gas passes to gas distribution point 9 and then to consumer needs.

Claims (1)

 A method of utilizing the energy of geothermal water by transferring heat energy of geothermal water through intermediate heat exchangers to a secondary heat carrier using the chemical energy of dissolved gases as an additional energy source by using primary and secondary separators, characterized in that the associated potential energy of geothermal water is used as an additional energy source, and as expanders of potential energy use an expander and a com springs on the same shaft, and the use of dissolved gases for energy use gasholder and gas distribution point.