RU2287700C1 - Thermal power station - Google Patents

Abstract

FIELD: heat power engineering.

SUBSTANCE: proposed thermal power station employs type T extraction turbine with heating steam extractions including seven steam extractions in regeneration system to first three extractions of which three high-pressure regenerative heaters are connected, and to last four extractions four low-pressure regenerative heaters are connected, upper and lower system heaters connected by heating medium line to sixth and seventh steam extractions, respectively, condenser, additional feed water vacuum deaerator connected by additional feed water pipe to higher pressure deaerator between which steam-water heat exchanger is installed being placed in additional feed water pipeline and connected to fifth steam extraction of type T turbine.

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 source of low-grade heat.

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Description

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

Analogs are known - thermal power plants containing a PT-80 / 100-130-13 type cogeneration turbine, a T type cogeneration turbine with heating steam taps, the recovery system of which includes seven steam taps, the first three of which are connected to three regenerative heaters high pressure, and the last four are connected four regenerative low-pressure heaters, the upper and lower network heaters connected via a heating medium to the sixth and seventh selections of steam, respectively A sensor, a vacuum deaerator of additional feed water with an additional feed water pipeline included in the regenerative heating line of the main condensate of a PT-80 / 100-130-13 type turbine before being fed to a 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 thermal power plant is proposed containing a T type cogeneration turbine with heating steam extraction, the recovery system of which includes seven steam extraction, the first three of which are connected to three regenerative high pressure heaters, and to the last four are connected four regenerative low pressure heaters , upper and lower network heaters connected via a heating medium to the sixth and seventh steam takeoffs respectively, condenser, ext. vacuum deaerator paid-feed water pipe connected to the additive feed water deaerator overpressure.

The peculiarity lies in the fact that a steam-water heat exchanger is connected in the pipeline of additional feed water between the vacuum deaerator and the deaerator of high pressure, connected via a heating medium to the fifth selection of steam of a turbine of type T.

The new interconnection of elements makes it possible to increase 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 the additional feed water after the vacuum deaerator to a technologically necessary temperature with a low-grade fifth turbine of the T type.

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 circuit 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 takeoffs, a steam-water heater 16, connected via a heated medium to an additional feed water pipe 17 before the high pressure deaerator 20 and a connected pipeline House 18 to the fifth selection of steam 7.

Thermal power station operates as follows.

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 solution allows us 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 a 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)

A thermal power station containing a T type cogeneration turbine with heating steam extraction, the recovery system of which includes seven steam extraction, the first three of which are connected to three regenerative high-pressure heaters, and the last four are connected to four regenerative low-pressure heaters, the upper and lower network heaters connected via a heating medium to the sixth and seventh steam takeoffs respectively, a condenser, a vacuum deaerator of additional feed water, connected pipes wire additive to the feed water deaerator elevated pressure, characterized in that the incremental feedwater conduit between the vacuum deaerator and deaeration pressurized steam is included a heat exchanger connected by the heating medium to the fifth selection type steam turbine T.