SU1746012A1 - Method of, and facility for, operating gas-turbine plant - Google Patents

Abstract

Use: gas turbine. SUMMARY OF THE INVENTION: In a gas turbine plant, after compressing air, moisture is injected into it obtained by condensing moisture from the combustion products, the water being taken simultaneously with the condensation process by absorbing it into the porous structure of the condenser wall and the condenser walls are made of capillary-porous material with pore size decreasing along the wall thickness in the direction of the coolant. 1 il.

Description

The invention relates to gas turbine engines with heat recovery of exhaust gases and can be used in areas of heat engineering that utilize the heat of combustion products.

A known method of operation of a gas turbine installation consists in supplying compressed air from a compressor to a heat exchanger, washed by hot gases leaving the installation, where it heats up and enters the combustion chamber 1.

A known method of operation of a gas turbine installation includes compressing air in a compressor, injecting water into the compressed air, heating the air-water mixture in the heat exchanger, igniting it in the combustion chamber by supplying fuel to the latter and expanding the combustion products in the turbine 2.

There is also known a method of operating a steam and gas turbine unit, which consists in compressing air in a compressor with water injection, injecting an air-steam mixture from the compressor into the combustion chamber, igniting it by supplying fuel, expanding it.

the combustion products in the steam-gas turbine with the subsequent flow of the waste mixture into the refrigerator-condenser, where water vapor injected into the compressor is condensed, after which condensate is injected into the spray nozzles in the compressor, and the cooled combustion products from the refrigerator-condenser are released into the atmosphere 3.

The device, in which the known method is implemented, contains a compressor, a combustion chamber, a turbine, a refrigerator-condenser connected to the turbine by a vapor-gas line, and a water line through a high-pressure pump to the spray nozzle.

A disadvantage of the known methods of operation of a gas turbine installation and devices implementing this method is low efficiency due to large losses of heat into the environment, discharged from the combustion products or in a condenser cooler.

The aim of the invention is to increase the efficiency of a gas turbine installation.

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What about

The goal is achieved by the fact that in a known method, including compressing air, mixing it with superheated steam and heating, expanding the mixture obtained in a turbine, cooling and condensing the water contained in it, water is taken at the same time as the condensation process by absorbing it into a porous structure condenser walls. And in an apparatus for carrying out the method, comprising a series-connected compressor, a combustion chamber, a turbine, a heat exchanger, a condenser with heat exchange surfaces and a water line, the heat exchange surfaces of the condenser are made of a capillary-porous material with a pore size decreasing in wall thickness coolant direction.

The drawing shows a diagram of a gas turbine plant, implementing the proposed method of operation.

The gas turbine plant, whose operation implements the proposed method, consists of a compressor 1 with an air line connected to the combustion chamber 2, the mixing chamber 3 and the turbine 4, the exhaust pipe from the turbine 4 through the heat exchanger 5 and the condenser b to the atmosphere, the water tank 7 connected through condenser 6, radiator 8, pump 9, flow controller 10 and heat exchanger 5 to line 11 and mixing chamber 3, fan 12.

Gas turbine installation works as follows.

The air compressed in compressor 1 enters the air line, the combustion chamber 2, the resulting combustion products enter the mixing chamber 3, where they are mixed with superheated water vapor, which is formed by taking heat from the combustion products from the water coming from the water tank 7 using a pump 9 through condenser b, radiator 8 and flow regulator 10 to heat exchanger 5, and through line 11 superheated

water vapor enters the mixing chamber 3. Formed with a mixture (gas, water vapor) from the mixing chamber enters the turbine 4, where it expands and enters the heat exchange 5, cooling to a temperature close to the condensation temperature, and then sent to condenser b, where the water vapor condenses. from the gas mixture and their absorption by capillary

forces into the internal cavity of the water line of the condenser, and from the condenser b water enters the radiator 8, where it is cooled with the help of the fan 12 and the ambient air to the desired (initial)

temperature, and to the pump 9, with the help of which through the regulator 10 and the heat exchanger 5 through line 11 and superheated water vapor enters the mixing chamber 3. The spent gas mixture from condenser 6 is emitted into the atmosphere.

Claims (2)

1. Method of operation of a gas turbine plant, including air compression, mixing it with superheated steam and heating, expansion of the mixture obtained in the turbine, cooling and condensation of the water contained in it, extraction and subsequent supply of condensed water to the heated compressed air entering the combustion chamber, characterized in that, in order to increase its efficiency, water is taken at the same time as the condensation process by absorbing it into the porous structure of the condenser wall. 2. Gas turbine installation, containing a series-connected compressor, combustion chamber, turbine, heat exchanger, refrigerator, condenser with heat exchange surfaces and a water line connected to the condenser, to the refrigerator and to the combustion chamber, because the heat exchange surfaces of the condenser are made of capillary-porous material with pore size decreasing along the wall thickness in the direction of the coolant