RU2422648C1 - Thermal power station - Google Patents

Abstract

FIELD: power industry. ^ SUBSTANCE: thermal power station includes steam boiler connected via live steam pipeline to turbine the condenser of which is connected via the main turbine condensate pipeline to feed water deaerator, low pressure heaters connected to the main condensate pipeline, connected to steam regenerative bleeding offs, lower and upper network heaters connected to delivery water pipeline and to lower and upper heating bleeding offs of turbine steam, vacuum make-up water deaerator of heating network with storage accumulator, which is connected to delivery water pipeline; surface cooler connected as to cooling medium to primary demineralised water pipeline after water treatment plant and before vacuum make-up water deaerator of heating network, which is connected to the main condensate pipeline of turbine between the second and the third low pressure heaters in condensate flow direction. ^ EFFECT: invention allows improving reliability and economy of thermal power station owing to additional generation of electric power on heat consumption at provision of technologically required heating of primary demineralised water after water treatment plant prior to its supply to vacuum make-up water deaerator of heating network. ^ 1 cl, 1 dwg

Description

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

A well-known analogue is a thermal power station containing a cogeneration turbine with lower and upper heating steam extraction connected to the lower and upper network heaters connected via a heated medium to the network water pipe, a water treatment plant for the heating system with a source water pipe connected to it, connected by a chemically cleaned pipe water with a deaerator connected to the make-up water storage tank, which is connected by the make-up water pipe to the make-up water included in it m pump with a network water pipe in front of the lower network heater (see Sokolov E.Ya. Heating and heating networks; M., MPEI, 2001, Fig. 3.1 on pages 80 and 81, description on it on pages 79-82) . This analogue is adopted as a prototype.

The disadvantages of the analogue and prototype are the insufficient heating of the source demineralized water after the water treatment plant before it is fed into the vacuum deaerator of the heating system’s make-up water and the insufficient use of the heat of the main condensate of the turbine, which leads to a decrease in the reliability and efficiency of the thermal power plant. So, a consequence of the high temperature of the main condensate of the turbine supplied to the low pressure heaters is the high pressure and enthalpy of the heating steam of the lower and upper heating taps of the turbine, which, in turn, leads to a decrease in the generation of electric energy for heat consumption.

The technical result achieved by the present invention is to increase the reliability and efficiency of a thermal power plant by additionally generating electric energy for heat consumption while ensuring the technologically necessary heating of the initial demineralized water after the water treatment plant before it is fed to the heating system’s make-up water vacuum.

To achieve this result, a thermal power plant is proposed that contains a steam boiler connected by a sharp steam pipeline to a turbine, a condenser of which is connected by the main condensate pipeline of the turbine to a feed water deaerator, low-pressure heaters included in the main condensate pipeline, connected to regenerative steam extraction, included in the pipeline network water lower and upper network heaters connected to the lower and upper heating steam extraction turbines connected water pipeline network vacuum deaerator feed water heating system with a storage tank.

The peculiarity lies in the fact that a surface cooler is included in the pipeline of the main condensate of the turbine between the second and third in the course of the condensate low-pressure heaters, which is included through the cooling medium in the pipeline of the initial demineralized water after the water treatment plant and before the vacuum deaerator of the heating system’s make-up water.

Next, we consider the information confirming the possibility of carrying out the invention with obtaining the desired technical result.

The drawing shows a schematic diagram of a thermal power station. The station contains a cogeneration turbine 1, a condenser 2 of which is connected by a pipeline 3 of the main condensate of the turbine 1 to a feed water deaerator 4, low-pressure heaters 5 included in the pipeline 3 of the main condensate, connected to regenerative steam extraction. The lower network heater 7 and the upper network heater 8, which are connected to the lower and upper heating taps of the steam of the turbine 1, are included in the network water pipe 6. The deaerator 9 of the heating water make-up connected to the heating water treatment plant 10 is connected to the network water pipe 6. The water treatment plant 10 of the heating system is connected to the pipeline 11 of the source demineralized water. In the pipeline 3 of the main condensate of the turbine 1 between the second and third low-pressure heaters along the condensate 5, a surface cooler 13 is included, which is included through the cooling medium in the pipe 11 of the initial demineralized water after the water treatment plant 10 and before the vacuum deaerator 9 of the heating system’s make-up water.

Thermal power station operates as follows.

The steam generated in the boiler is sent to the cogeneration turbine 1. The exhaust steam of the turbine 1 is condensed in the condenser 2. Then the main condensate of the turbine 1 is supplied to the feed water deaerator 4 through the main condensate pipe 3, while the main condensate of the turbine is heated before the feed water deaerator 4 in low heaters pressure 5, which are included in the main condensate pipe 3 between the condensate pump 12 and the feed water deaerator 4. The network water is heated by the steam of the lower and upper heating taps of the heating turbine 1 in the lower 7 and upper 8 network heaters included in the network pipeline 6. The initial demineralized water after the water treatment plant 10 is heated to the technologically necessary temperature in the surface cooler 13 with the main condensate of the turbine 1 before being fed to vacuum deaerator 9 makeup water heating system. Lowering the temperature of the main condensate before it is fed to the low-pressure heaters 5 leads to a decrease in pressure in the heating taps and an increase in the generation of electricity for heat consumption. The source water is subjected to anti-scale treatment in the water treatment plant 10 and deaeration in the vacuum deaerator 9 of the make-up water of the heating system. Deaerated water is stored in the make-up water tank 14, after which it is supplied to the mains pipe 6 in front of the lower network heater 7.

Thus, the proposed solution allows to increase the reliability and efficiency of the thermal power plant due to the additional generation of electric energy for heat consumption while ensuring the technologically necessary heating of the initial demineralized water after the water treatment plant before it is fed to the heating system’s makeup water.

Claims (1)

A thermal power station comprising a steam boiler connected by a sharp steam pipeline to a turbine, a condenser of which is connected by a pipeline of the main condensate of the turbine to a feed water deaerator, low pressure heaters included in the main condensate pipe, connected to regenerative steam extraction, lower and upper connected to the mains water pipe network heaters connected to the lower and upper heating taps of the steam of the turbine, connected to the mains water pipeline heating water make-up torus with a storage tank, characterized in that a surface cooler is included in the main condensate pipeline of the turbine between the second and third low-pressure heaters along the condensate, connected via the cooling medium to the source demineralized water pipe after the water treatment plant and before the make-up vacuum deaerator heating systems.

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