RU2775611C1 - Thermal power plant - Google Patents

Abstract

FIELD: thermal power engineering.

SUBSTANCE: invention relates to the field of thermal power engineering and is intended for use in thermal power plants. To maintain the optimal temperature of the cyclic atmospheric air for a gas turbine installation, an absorption refrigerating machine (ARM) is included in the thermal circuit of the thermal power plant, connected via the cooling medium to the cooled circulating water pipeline, via the heating medium to the gas duct after the recovery boiler, and via the cooled water to the surface heat exchanger integrated into the duct of the cyclic atmospheric air for a gas turbine installation.

EFFECT: increase in the efficiency of a thermal power plant by constantly maintaining the optimal temperature of cyclic atmospheric air for a gas turbine installation without additional electricity costs for the heat pump system drive.

1 cl, 1 dwg

Description

The invention relates to the field of thermal power engineering and can be used in thermal power plants.

Known analogues are thermal power plants containing a combined-cycle plant with a gas turbine, a compressor of a gas turbine plant, a combustion chamber, a waste heat boiler, a steam turbine with a condenser, to which pipelines of cooled and heated circulating water are connected, a heat pump unit designed to maintain the optimum temperature of the cyclic atmospheric air for a gas turbine plant (see Patent 2607437 (RU). IPC F02C 7/047 F01K 17/02. Thermal power plant / V.I. Sharapov, M.M. Zamaleev, I.V. Yaparov, I.V. Gubin // Bulletin of Inventions - 2017. - No. 1). This analog is taken as a prototype.

The disadvantage of the prototype and analogues is the reduced efficiency of the thermal power plant due to the significant cost of electricity to drive the heat pump unit (HPU).

The technical result achieved by the present invention is to increase the efficiency of a thermal power plant by constantly maintaining the optimal temperature of the cyclic atmospheric air for a gas turbine plant without additional energy costs for the HPI drive.

To achieve this result, a thermal power plant is proposed, containing a combined-cycle plant with a gas turbine, a compressor of a gas turbine plant, a combustion chamber, a waste heat boiler, a steam turbine with a condenser, to which pipelines of cooled and heated circulating water are connected.

The peculiarity lies in the fact that in order to maintain the optimal temperature of the cyclic atmospheric air for a gas turbine plant, an absorption refrigerator (ABKhM) is included in the thermal circuit of a thermal power plant, connected via a cooling medium to a pipeline of cooled circulating water, via a heating medium - to the gas duct after the waste heat boiler , and for cooled water - to a surface heat exchanger built into the duct of cyclic atmospheric air for a gas turbine plant.

Inclusion of new elements in the scheme makes it possible to increase the efficiency of a thermal power plant by constantly maintaining the optimal temperature of the cyclic atmospheric air for a gas turbine plant without additional electricity costs for the HPI drive, also due to the efficient use of the heat of flue gases after the waste heat boiler as a heating medium.

Next, consider the information confirming the possibility of carrying out the invention to obtain the desired technical result.

The drawing shows a schematic diagram of a thermal power plant.

The thermal power plant contains a combined-cycle plant with a gas turbine plant 1, consisting of a gas turbine, a compressor of a gas turbine plant, a combustion chamber and an electric generator, a waste heat boiler 2, a steam turbine 3 with a condenser 4, to which pipelines of heated 5 and cooled 6 circulating water are connected, surface heat exchanger 10, included in the cooled medium in the cyclic atmospheric air duct for gas turbine plant 1, ABKhM 7, connected by a cooled water pipeline 9 to the surface heat exchanger 10, exhaust gas duct 8 after the waste heat boiler 2.

The above scheme of combined cycle plant works as follows. The steam exhausted in the steam turbine 3 is condensed in the condenser 4, to which pipelines of heated 5 and cooled 6 circulating water are connected. The cyclic atmospheric air required for the gas turbine passes through the surface heat exchanger 10 and is supplied to the compressor of the gas turbine plant 1.

To maintain the optimum temperature of the cyclic atmospheric air (below 15°C), water with a temperature of 7-10°C is supplied to the surface heat exchanger 10 through pipeline 9, cooled in ABCM 7. To generate cold, cooling water is supplied to the ABCM through pipeline 6 after the cooling tower, and also through flue 8 - exhaust gases after the waste heat boiler 2.

Thus, the proposed scheme of a thermal power plant makes it possible to increase the efficiency of a thermal power plant by constantly maintaining the optimal temperature of the cyclic atmospheric air for a gas turbine plant without additional energy costs for the HPI drive.

Claims (1)

Thermal power plant containing a combined-cycle plant with a gas turbine, a compressor of a gas turbine plant, a combustion chamber, a waste heat boiler, a steam turbine with a condenser, to which pipelines of cooled and heated circulating water are connected, characterized in that it is equipped with an absorption refrigeration machine (ABKhM), connected via the cooling medium to the cooled circulating water pipeline, via the heating medium to the gas duct after the waste heat boiler, and via the cooled water to the surface heat exchanger built into the cyclic atmospheric air duct for the gas turbine plant.

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