RU2291969C1 - Thermal power station - Google Patents

Abstract

FIELD: heat power engineering, applicable at thermal power stations.

SUBSTANCE: the thermal power station has an extraction turbine, type T, with heating steam extractions, whose regeneration system has seven regenerative bleed-offs, connected to the first three of them are three high-pressure regenerative heaters, and connected to the last four ones are four low-pressure regenerative heaters, peak network heater connected, as far as the heated medium is concerned, to the heating system water pipe-line past the heating system pumps of the second stage, and connected to the steam line of the third bleed-off of the turbine, type T.

EFFECT: enhanced economical efficiency and reliability of the thermal power station due to provision of a high-efficiency heating of network water in the peak network heater and possibility of rejection of the less economically efficient peak hot-water boilers by using a stable heat source independent of the process steam extraction.

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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-60-130 / 13 type heat-producing turbine with production steam extraction, a T-type heating 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 four regenerative low-pressure heaters, a peak network heater, connected via a heated medium to the network water supply pipe le network pumps of the second stage and connected to the production selection steam line (see Solovyov Yu.P., Mikhelson A.I. Auxiliary equipment of thermal power plants, central boiler houses and its automation. - M .: Energia, 1972. Fig. 1-1. .10-11). This analogue is adopted as a prototype.

The disadvantages of the analogues and the prototype are the reduced efficiency and reliability of thermal power plants due to the inability to use an economical method of heating network water in a peak network heater with significant steam consumption of industrial selection by industrial consumers reaching several hundred tons per hour. A shortage of production selection steam also arises due to the physical deterioration of PT-60-130 / 13 type turbines and the inability to upgrade the main equipment due to the removal of this type of turbine from production. At thermal power plants, where there are no turbines of type ПТ, peak heat load is covered by uneconomical peak water boilers.

The technical result achieved by the present invention is to increase the efficiency and reliability of a thermal power plant by providing highly economical heating of network water in a peak network heater and the possibility of rejecting less economical peak boilers by using a stable heat source that is independent of the flow rate of production steam.

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 , a peak network heater connected via a heated medium to the network water pipe after the second stage network pumps.

The peculiarity is that as the heating medium in the peak network heater, third-type steam turbines of type T are used.

The new interconnection of elements makes it possible to increase the efficiency and reliability of a thermal power plant by providing a peak heating load without the participation of hot water boilers by heating the network water in the peak network heater to the required temperature with the steam of the third turbine of the T type with heating steam. In addition, the present invention allows for highly economical heating of mains water in peak conditions at thermal power plants not equipped with turbines with production steam extraction.

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 peak network heater 18, connected via a heated medium to the network water pipe 17 after the network pumps of the second stage 16 and connected by the pipe 19 to the third steam sampling 5.

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 peak heating load is provided by the peak network heater 18, in which the network water is heated after the network pumps Owls of the second stage 16. In the peak network heater 18 through the pipeline heating medium 19 serves steam from the third selection of the turbine 5.

Thus, the proposed solution allows us to provide the required heating of the mains water after the second-stage mains pumps due to the use of the third selection of a T-type turbine with heating steam extraction as a heating medium in the peak network heater, that is, to increase the efficiency and reliability of the power plant. The efficiency of the station is also enhanced by reducing fuel consumption by boilers.

Claims (1)

A thermal power plant containing 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 with three regenerative high-pressure heaters, and the last four are connected with four regenerative low-pressure heaters, a peak network heater, included in the heated medium in the network water pipe after the second stage network pumps, characterized in that as a heating medium in the peak network heating STUDIO use steam turbines selection of the third type T.