SU1590564A1 - Steal electric plant - Google Patents

Abstract

EFFECT: higher efficiency. The steam generated in the boiler is expanded in the turbine 27. The exhaust steam is condensed in the condenser 28 by removing heat to the cooling tower 32. The leaving boiler gases are cooled in contact economizer 9, from which the heated water is supplied to the preheater 21 and the heat exchanger 16 and further to the heat exchange the frost protection surface 4 of the contact air heater 2. Waters 5 and 6 of the latter are supplied directly from the cooling surface 29 of the condenser 28 and the water is preheated in the heat exchanger 16. The air supplied to the boiler 1, n The passage 4 and the steps of the contact air heater are successively heated. The water cooled in the latter is directed to the sump 31 of the cooling tower 32. 1 sludge.

Description

The invention relates to the field of energy and can be used at thermal power plants operating on natural gas.

The aim of the invention is to increase efficiency.

The drawing shows a diagram of the proposed station.

The thermal power station contains a steam boiler 1 with a contact air heater 2 having a tray 3, anti-frost protection heat exchanger surface 4 arranged sequentially along the air, sprinklers of the first 5 and second 6 heating stages, nozzles 7 and a blower fan 8, and with a contact economizer 9, having a pan 10, a sprinkler 11, nozzles 12, a bypass gas duct 13, a smoke exhauster 14 and a condensate collector 15. The station contains an intermediate heat exchanger 16 with inlet 17 and outlet 18 nozzles of the heating medium and inlet 19 and outlet 20 nozzles of the heated medium and a heater 21 of the heat carrier of heat consumers with inlet 22 and outlet 23 nozzles of the heating medium and pipelines 24 and 25 for supplying heat medium from the heat consumers and to consumers. The pallet 10 of the economizer 9 is connected to the inlet pipes 22 and 17 of the heating medium of the heater 21 and the intermediate heat exchanger 16, the output pipes 23 and 18 of which are connected by the cold water pipe 26 to the sprinkler 11 of the economizer. A heat exchange surface 4 of frost protection is placed in the pipe 26. The station also contains a steam turbine 27, the exhaust of which is connected to a condenser 28 with a cooling surface 29, the inlet pipe 30 of which is connected to the pallet 31 of the tower 32, and the output pipe 33 to the sprinkler 34 of the tower, and a heating system with a network heater 35, heat consumer 36 , direct 37 and return 38 by heating mains and make-up water deaerator 39 connected to condensate collector 15.

Thermal power station operates as follows.

The steam generated in the steam boiler 1 expands in the turbine 27 with the completion of useful work. The exhaust steam is condensed in the condenser 28 by removing heat to the circulating water coming from the pan 31 of the tower 32 through the cooling surface 29 and sent to the sprinkler 34 of the tower. A part of the steam from the flow part of the turbine 27 is taken to a network heater, in which the heat carrier of the heating system is heated, sent to the consumer 36 along the direct line 37 and returned to the heater 35 via the return line 38. The waste products of the boiler 1, which runs on natural gas, enter the con a tact economizer 9 and heat the water supplied through the sprinkler 11 to the nozzle 12. The heated water together with the condensate of the water vapor of the combustion products is collected in the pan 10. From the latter, the heated water to two streams and is sent to the intermediate heat exchanger 16 and to the heater 21 through the nozzles 17 and 22. In the heater 21, the water transfers heat to the heat carrier circulating between the heater and heat consumers through pipelines 24 and 25, and in the intermediate heat exchanger 16 to the water supplied to the contact air heater irrigation 6 2. Cooled water in the heat exchanger and heater through the pipes 18 and 23 enters through a pipe 26 to the heat exchange surface 4 of frost protection and then to the sprinkler 11 of the economizer 9.

A portion of the circulating water heated in the cooling surface 29 of the condenser 28 is supplied directly through the nozzle 33 to the sprinkler 5 of the first stage of the air heater and through the heat exchanger 16 to the sprinkler 6 of the second stage. External air entering the boiler through the blast is heated sequentially passing through surface 4, the first and second stages of the air heater. Chilled water flows into the pan 3, from where it is supplied to the pan 31 of the cooling tower 32.

Excess condensate of water vapor generated during the deep cooling of natural gas combustion products in the contact economizer 9 is removed from the pallet 10 to the collector 15, from where they are sent to the deaerator 39 and fed to the return pipe 38 to make up for the loss of coolant.

When the boiler switches to working with reserve fuel (solid or heavy fuel oil), the combustion products are sent in addition to the contact economizer through the bypass duct 13.

The invention improves the efficiency by using the heat of the circulating water of the condenser to heat the blast air and supply chilled water from the air heater to the condenser.

Claims (1)

Claim A thermal power station comprising a steam boiler with a contact air heater having a pan and arranged in series along the air flow anti-freeze protection surface, a first stage heating sprinkler and a second heating stage sprinkler connected to an outlet pipe of a heated medium of an intermediate heat exchanger having an inlet pipe of a heated medium, and with a contact economizer having a pallet connected to the inlet pipes of the heating medium of the intermediate heat exchanger and a heat carrier heat carrier of heat consumers, the outlet pipes of which are connected through a cold water pipe to the economizer sprinkler, a steam turbine, to the exhaust of which a condenser with a cooling surface is connected, the inlet pipe of which is connected to the cooling tower tray, and the outlet pipe to the latter sprinkler, characterized in that, for the purpose of to increase efficiency, the outlet pipe of the cooling surface is connected to the sprinkler of the first heating stage and to the inlet pipe of the heated medium of the intermediate heat exchanger , Wherein the air heater is connected to the cooling tower sump pan, and a heat exchange surface of the antifreeze placed in a cold water pipe.