RU2693567C1 - Method of operation of steam-gas plant of power plant - Google Patents

Abstract

FIELD: power engineering.SUBSTANCE: invention relates to power engineering and can be used at thermal power plants. To increase efficiency of gas turbine plant two-stage turbo compressor of gas turbine plant is proposed, consisting of stage of low pressure and stage of high pressure, and proposed to perform intermediate cooling of cyclic air compressed in low-pressure stage before its supply to high-pressure stage in intermediate air cooler by supplying into its heating path feed water of waste heat boiler of gas-turbine plant at temperature of 30–35 °C. To increase efficiency of waste heat boiler of gas-turbine plant by reducing temperature of exhaust gases in tail part of waste heat boiler additionally installed heat exchange surface for heating source water to temperature of 30–35 °C before feeding it to a chemical water treatment plant. As a result of heat exchange process between outgoing gases at temperature of 105–110 °C at the inlet of the additional heat exchange surface and initial water having a temperature at the inlet to the additional heat exchange surface 5–15 °C, temperature of spent gases in waste heat boiler is reduced, which increases efficiency of waste heat boiler.EFFECT: improving the efficiency of a gas turbine plant and a waste heat boiler of a power plant, as well as increasing the efficiency of a steam-gas plant of a power plant; higher efficiency of gas-turbine plant and waste heat boiler increases efficiency of steam-gas plant of power plant.1 cl, 1 dwg

Description

The invention relates to energy and can be used in thermal power plants.

Known analogue - the method of operation of the combined cycle gas turbine unit of the power plant (see V. Burov, E. Dorokhov, D. Elizarov, etc. Thermal power plants. M .: MEI Publishing House, 2007, Fig. 15.12, p. 388 ), according to which organic fuel and atmospheric air compressed in a turbo-compressor are fed into the combustion chamber of a gas-turbine installation, where the combustion of organic fuel is carried out with the formation of heated products at a high temperature. The products of combustion are mixed with secondary air, the gases formed during the mixing process are sent to the gas turbine, the gas turbine expands the gases and the gas turbine cycle is used, which is spent on driving the turbocharger and the electric generator. Exhaust gases in a gas turbine are sent to a waste heat boiler, where steam is generated in the process of cooling gases, steam is supplied to a steam turbine, and exhaust gases are vented to the atmosphere through an exhaust gas duct. In the steam turbine, the process of expansion of water vapor is carried out and the useful work of the steam-power cycle, which is expended on driving an electric generator, is accomplished. The steam that has worked in the steam turbine is led off to the condenser, where in the process of heat exchange with the circulating water, water vapor is condensed. This method is taken as a prototype.

The reason that impedes the achievement of the following technical result when implementing the known method of operation of the combined cycle gas turbine unit adopted for the prototype is the fact that the combined cycle gas turbine unit of the power station has lowered efficiency, since intermediate cooling of the cyclic air compressed in the turbocharger of the gas turbine unit is not performed, which causes increased energy costs to drive the turbocharger and reduce the efficiency of the gas turbine mouth ovki. In addition, exhaust gases that have been discharged in the waste-heat boiler of a gas-turbine installation are discharged at a high enough temperature of 105-110 ° C, which reduces the efficiency of the waste-heat boiler. Thus, the absence of intermediate cooling of cyclic air compressed in a turbo-compressor of a gas turbine installation and exhaust into the atmosphere at a sufficiently high temperature of exhaust gases that have been exhausted in the heat recovery boiler cause low values of the efficiency of the gas turbine installation and the heat recovery boiler, which ultimately leads to a decrease in efficiency combined cycle power plant and its efficiency.

The technical result of the invention is to increase the efficiency of the gas turbine installation and the boiler of the power plant, as well as improving the efficiency of the combined cycle gas turbine plant.

This technical result in the implementation of the invention is achieved by the fact that in the known method of operation of the combined cycle gas turbine unit of a power plant, according to which organic fuel and atmospheric air compressed in a turbo compressor are fed into the combustion chamber of a gas turbine unit, where the combustion process of organic fuel is carried out the combustion products are mixed with the secondary air, the gases formed during the mixing process are sent to the gas turbine, to the gas Bin performs the process of expanding gases and gas turbine cycle work takes place, which is spent on the drive of the turbocharger and electric generator, the gases spent in the gas turbine are sent to the waste-heat boiler, where in the process of cooling the gases in the heat-exchanging surface water vapor is generated, steam is supplied to the steam turbine, and the gases in the exhaust duct are vented to the atmosphere, the process of expanding water vapor is carried out in the steam turbine, and the useful work of the steam-power cycle is carried out, and the drive of the electric generator, the steam in the steam turbine is drained into a condenser, where in the process of heat exchange with circulating water, steam is condensed, a feature is that the combined-cycle plant is additionally supplied with an intermediate air cooler located after the low-pressure stage of the turbo-compressor of the gas-turbine plant, which perform a two-stage with low and high pressure steps and perform intermediate cooling of the compressed in the low-pressure step cyclic air pressure before supplying it to the high-pressure stage in the intermediate air cooler by feeding the heat-recovery boiler of the gas-turbine installation into its heating channel at a temperature of 30-35 ° C, and installing an additional heat exchange surface in which the heat recovery boiler is installed flue gases by supplying source water to its heating channel at a temperature of 5-15 ° C before supplying it to the chemical water treatment of a power plant, while heating the source water before odachey it on demineralizer plant to produce additional heat exchange surface to 30-35 ° C temperature.

The drawing shows a diagram of the combined-cycle plant.

The combined cycle gas turbine plant contains a gas turbine plant comprising a gas turbine 1, a two-stage turbocharger consisting of a low pressure stage 2 and a high pressure stage 3, a combustion chamber 4 and an electric generator 5, an intermediate air cooler 6, a heat recovery boiler containing the main heat exchange surface 7 and an additional heat exchange surface 8 installed in the tail section of the waste-heat boiler, steam turbine installation including steam turbine 9 with condenser 10, electric generator p 11 and the feed pump 12, the feed water pipeline 13 connected to the main heat exchange surface 7 of the heat recovery boiler through the heating duct of the intermediate air cooler 6. In this case, the additional heat exchange surface 8 of the heat recovery boiler is connected to the source water 14 to the water treatment plant 15 of the power plant .

The method is implemented as follows.

Atmospheric air is fed to the low pressure stage 2 of a two-stage turbocharger where the air is compressed. The air heats up during the compression process. The heated air is directed to the heating path of the intermediate air cooler 6, into the heated path of which the feed pump 12 feeds the feedwater of the gas turbine unit at a temperature of 30-35 ° C via feedwater pipe 13. In the intermediate air cooler 6, the process of heat exchange between air and feed water is carried out, while the air is cooled and the feed water is heated. Cooled in the intermediate air cooler 6, the air is fed to the high pressure stage 3 of a two-stage turbocharger, and the heated feed water is sent to the main heat exchange surface 7 of the heat recovery boiler. In the high-pressure stage 3 of a two-stage turbo-compressor, air is compressed to the required pressure, after which it is sent to the combustion chamber 4, where organic fuel is also supplied. In the combustion chamber 4, the combustion of fossil fuels with the formation of heated to a high temperature combustion products. Formed in the combustion chamber 4, the combustion products are mixed with secondary air. The mixture of combustion products with secondary air (gases) is sent to the gas turbine 1, in which the gas turbine cycle is operating, spent on driving the electric generator 5 and the two-stage turbo-compressor consisting of the low pressure stage 2 and the high pressure stage 3. Exhaust gases in the gas turbine 1 served in the recovery boiler, where in the process of cooling gases in the main heat exchange surface 7 water vapor is generated, and in the additional heat exchange surface 8 the source water is heated; about temperature 30-35 ° C. Heated to the temperature of 30-35 ° C source water through the pipeline of source water 14 is sent to the chemical water treatment 15 of the power plant. The exhaust gases in the recovery boiler are discharged to the atmosphere through a chimney (not shown), and the water vapor is sent to the steam turbine 9. In the steam turbine 9, the process of expanding the water vapor is performed and useful work is performed on the steam-power cycle 11. in the steam turbine 9, steam is supplied to the condenser 10, in which the process of condensation of water vapor and the formation of turbine condensate are carried out. The turbine condensate is mixed with desalinated water obtained during the treatment of the source water in a chemical water treatment 15, the feedwater stream of the heat recovery boiler of the gas turbine installation is fed into the intermediate air cooler 6, heated and sent to the main heat exchange surface 7 of the heat recovery boiler.

Thus, to improve the efficiency of the combined cycle gas turbine unit of the power plant by increasing the efficiency of the gas turbine unit, it is proposed to make the turbocharger of the gas turbine unit two-stage, consisting of a low pressure stage and a high pressure stage, and to carry out intermediate cooling of the air that is compressed in the low pressure stage to an intermediate air cooler by feeding a heat-recovery boiler into its heating circuit feedwater turbine installation at a temperature of 30-35 ° C. Intermediate cooling of low-pressure compressed cyclic air before supplying it to the high-pressure stage of a two-stage turbo-compressor of a gas-turbine unit allows reducing the power consumed by the turbo-compressor due to a decrease in specific air volume, increasing the energy consumption of cycling air and increasing the efficiency of the gas-turbine unit . In addition, in order to increase the efficiency of the gas turbine plant's heat recovery boiler by lowering the flue gas temperature, it is advisable to additionally install a heat exchange surface in the tail section of the heat recovery boiler to preheat the source water to a temperature of 30-35 ° C before it is fed to water treatment. As a result of the heat exchange process between the exhaust gases at a temperature of 105-110 ° C at the entrance to the additional heat exchange surface and the source water having an entrance temperature to the additional heat exchange surface of 5-15 ° C, the temperature of the exhaust gases in the waste-heat boiler will decrease, causes an increase in the efficiency of the recovery boiler. The increase in the efficiency of the gas turbine plant and the recovery boiler causes an increase in the efficiency of the combined cycle gas turbine plant.

Claims (1)

The method of operation of the combined-cycle gas turbine unit in which organic fuel and atmospheric air compressed in a turbocharger are fed to the combustion chamber of a gas turbine unit, where organic fuel is burned to form heated combustion products, the combustion products are mixed with secondary air, gases formed during the mixing process sent to the gas turbine, in the gas turbine, the process of expansion of gases is carried out and the gas turbine cycle operation is carried out, The gases driven to drive the turbocharger and electric generator, spent in the gas turbine, are sent to the heat recovery boiler, where steam is generated in the heat exchange surface, water vapor is fed to the steam turbine, and the exhaust gases are vented to the atmosphere in the steam turbine the process of expansion of water vapor is carried out and the useful work of the steam-power cycle takes place, which is expended on the drive of the electric generator, the steam that has worked in the steam turbine is drained off torus, where in the process of heat exchange with circulating water, steam is condensed, characterized in that the combined-cycle plant is additionally supplied with an intermediate air cooler located after the low-pressure stage of the turbo-compressor of the gas-turbine plant, which is two-stage with low and high pressure steps, and the intermediate cooling is performed low pressure cycle air before supplying it to the high pressure stage in the intermediate air cooler by feeding the heat-recovery boiler of the gas-turbine installation into its heating channel at a temperature of 30-35 ° C, and an additional heat exchange surface is installed in the tail section of the recovery boiler by cooling the flue gases to its heating path at 5 -15 ° C before supplying it to the chemical water treatment of the power plant, while the source water is heated before supplying it to the chemical water cleaning of the power station in the additional heat exchange surface is produced before Aturi 30-35 ° C.

Images