RU2287699C1 - Method of operation of thermal power station - Google Patents

Abstract

FIELD: heat power engineering.

SUBSTANCE: according to proposed method, steam from first three extractions of type T extraction turbine is directed to high-pressure regenerative heaters, and steam from last four extractions, to low-pressure regenerative heaters in which main condensate after turbine condenser and feed water are heated successively. Steam from seventh and sixth extractions of type T turbine are directed for heating system water in lower and upper system heaters, respectively. Additional feed water after vacuum deaerator is heated in steam-water heat exchanger before delivering into higher pressure deaerator. Steam from fifth extraction of type T-turbine is used as heating medium in said steam-water heat exchanger.

EFFECT: improved reliability and economy of thermal power station owing to provision of technologically required heating of additional feed water after vacuum deaerator delivered into higher pressure deaerator using stable low-grade heat source.

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Description

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

Known analogues are the methods of operation of a thermal power plant, in which steam from a regulated production selection of a PT-80 / 100-130-13 type turbine is directed to technological needs, from the first three samples of a type T cogeneration turbine steam is diverted to high-pressure regenerative heaters, and from the last four - to regenerative low-pressure heaters, in which the main condensate after the turbine condenser and feed water are sequentially heated, steam is removed from the seventh and sixth selections of the T turbine to heating of the network water in the lower and upper network heaters, respectively, in the heaters of the low-pressure regeneration system of the ПТ-80 / 100-130-13 type turbines heats the additional feed water after the vacuum deaerator together with the main condensate of the turbine and the condensate of the network heaters before feeding the high pressure deaerator (see Soloviev, Yu.P. Design of heat supply plants for industrial enterprises. - 2nd ed., revised. - M .: Energy, 1978. Fig. 3-1. p. 32-33). This analogue is adopted as a prototype.

The disadvantages of the analogues and the prototype are the reduced reliability and efficiency of thermal power plants due to the insufficient heating of the additional feed water after the vacuum deaerator in the heaters of the low-pressure regeneration system of the PT-80 / 100-130-13 type due to the limited capacity of low-pressure heaters, especially with significant costs of additional feedwater, reaching several hundred tons per hour. Insufficient heating of the additional feed water in front of the high pressure deaerator leads to a deterioration in the quality of deaeration of the total feed water flow due to non-compliance with the standard requirements for the temperature regime of operation of the high pressure deaerator.

The technical result achieved by the present invention is to increase the reliability and efficiency of a thermal power plant by providing technologically necessary heating of additional feed water after a vacuum deaerator supplied to a high pressure deaerator by using a stable source of low potential heat.

To achieve this result, a method of operating a thermal power plant is proposed, in which steam is transferred to the high pressure regenerative heaters from the first three samples of the T type cogeneration turbine, and from the last four to low pressure regenerative heaters, in which the main condensate is subsequently heated after the turbine condenser and feed water from the seventh and sixth selections of a T-type turbine, steam is diverted to heat the network water, respectively, in the lower and upper network heaters, add After the vacuum deaerator, the avalue feed water is heated in a steam-water heat exchanger before being fed to a high pressure deaerator.

The peculiarity lies in the fact that as a heating medium in a steam-water heat exchanger use steam of the fifth selection of a type T turbine with heating steam extraction.

A new way of operating a thermal power plant improves the reliability and efficiency of a thermal power plant by ensuring the standard quality of deaeration of feed water in a high pressure deaerator by heating additional feed water after a vacuum deaerator to a technologically necessary temperature with a low-grade fifth turbine of type T steam.

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 plant, explaining the proposed method. The station contains a steam boiler 1, a T 2 type cogeneration turbine with seven steam take-offs 3-9, a condenser 10, a main condensate pipeline of the turbine 11 connected to the condenser 10 and a condensate pump 12 included in it, regenerative low-pressure heaters 13, lower and upper network heaters 14 and 15, connected to the seventh 9 and sixth 8 turbine taps, a steam-water heater 16, connected via a heated medium to the feed water pipe 17 before the high pressure deaerator 20 and the connected pipe gadfly 18 to the fifth selection of steam 7.

Consider an example of the implementation of the claimed method of operation of a thermal power plant.

The steam generated in the steam boiler 1 is sent to the turbine 2 and condensed in the condenser 10, the main condensate of the turbine is pumped by the condensate pump 12 sequentially through the regenerative low pressure heaters 13 and then to the high pressure deaerator 20, after which the deaerated water is supplied by the feed pump through the high pressure regenerative heaters to the steam boiler 1. The losses of steam and condensate from the plant cycle are compensated by additional feedwater, which is deaerated in a vacuum deaerator 19 and then is heated to the required temperature in the steam heater 16 before being fed to the deaerator 20. In the pressurized steam heater 16 through line 18, the heating medium steam is supplied from the fifth selection turbine 7.

Thus, the proposed method allows to provide the required heating of the additional feed water in front of the high pressure deaerator due to the use of a low-grade fifth turbine of the T type with heating steam extraction as a heating medium in the steam-water heat exchanger, i.e. increase the reliability and efficiency of the power plant. The reliability of the station is also enhanced by reducing the thermal overload of the heaters of the low pressure regeneration system.

Claims (1)

The method of operation of a thermal power plant, in which steam is transferred to high pressure regenerative heaters from the first three samples of a type T cogeneration turbine, and from the last four to low pressure regenerative heaters, in which the main condensate after the turbine condenser and feed water are sequentially heated from the seventh and the sixth sampling of a type T turbine, steam is diverted to heat the network water in the lower and upper network heaters, respectively, and additional feed water after vacuum the deaerator is heated in a steam-water heat exchanger before being fed to an elevated pressure deaerator, characterized in that the fifth-type steam of a turbine of type T with heating steam is used as a heating medium in a steam-water heat exchanger.