SU1408089A1 - Turbine plant - Google Patents

Abstract

The invention relates to a power system and m. B. used in turbine installations operating at low temperature heat, for example, heat of geothermal sources. At the entrance to the turbine 2, an ejector 7 is installed, communicated by its entrance to the output of the contact heat and mass transfer apparatus 4 and degasser 6. Compressor and turbine m. B. communicated with the atmosphere. As a result, a significant decrease in the temperature of the wet thermometer of dropping liquid in the apparatus 4 due to the compressor running on clean air is ensured, which significantly increases the efficiency of the installation. Communication of the entrance to the compressor and the exit from the turbine with the atmosphere makes it possible to exclude a condenser from the installation scheme, which simplifies and reduces it. 1 h. the item f-ly, silt (L 4 o 00 o 00 co

Description

The invention relates to tenloenergy and can be used in turbine installations operating on low-temperature heat, such as heat from geothermal sources.

The purpose of the invention is to increase the economics of the turbine installation.

The drawing shows a diagram of the turbine installation.

The installation contains a consumer of energy 1, a turbine 2, a compressor 3, a contact 10 heat and mass transfer apparatus 4, a source of thermal energy 5, which is a thermal water well, a degasser 6 and an ejector 7.

Turbine installation works as follows.

The hot water from the source 5 in dispersed form is supplied to the contact heat and mass transfer apparatus 4, where a gas, for example, air, flows from the com- specoca 3 in the opposite direction. At contact 20 turbine, compressor, contact heatmas15

Well 2, where it expands to a predetermined pressure and then is emitted into the atmosphere. The turbine unit provides a significant lowering of the temperature of the wet thermometer of the dropping liquid in the contact heat and mass transfer apparatus due to the compressor running on clean air, which significantly increases its efficiency. The connection of the entrance to the compressor and the outlet from the turbine with the atmosphere makes it possible to exclude a condenser from the installation scheme, which simplifies and cheapens it. The use of high-pressure gases contained in geothermal water as an additional working fluid increases the efficiency of the turbine cycle.

Claims (2)

The formula of the invention Turbine installation, including hot water and gas due to the difference in partial pressures on the surface of the drop and in the gaseous medium, the drops of water are partially evaporated, cooled to a temperature; a wet thermometer. The cooled water through the float valve in the lower part of Apparatus 4 is removed into the atmospheric atmosphere, and the resulting vapor-gas mixture is mixed with high pressure gases released from the water of the source 5 in the degasser 6, with - (by the power of the ejector 7 is sent to the turby25 a common apparatus with a displacement of water from a thermal source and a gas compressed in a compressor; 2. Installation according to claim 1, characterized in that the compressor and the turbine are in communication with the atmosphere. Well 2, where it expands to a predetermined pressure and then is emitted into the atmosphere. The turbine unit provides a significant lowering of the temperature of the wet thermometer of the dropping liquid in the contact heat and mass transfer apparatus due to the compressor running on clean air, which significantly increases its efficiency. The connection of the entrance to the compressor and the outlet from the turbine with the atmosphere makes it possible to exclude a condenser from the installation scheme, which simplifies and cheapens it. The use of high-pressure gases contained in geothermal water as an additional working fluid increases the efficiency of the turbine cycle. y, compressor, contact heat mash Formula of the invention Turbine plant, including five a common apparatus with a displacement of water from a thermal source and a gas compressed in a compressor; 2. Installation according to claim 1, characterized in that the compressor and the turbine are in communication with the atmosphere.