SU1268752A1 - Thermal power plant - Google Patents

Abstract

The invention relates to the field of power engineering, namely to steam turbine installations of thermal power plants. The aim of the invention is to increase the economy and maneuverability at variable loads. In the period of variable loads, when the deaerator 11 is fed with a higher potential extraction steam, the main feedwater after the low pressure preheater 10 is directed to the high pressure heater 13, where it is heated with a selection vapor from the nozzle 5 and then discharged into the deaerator 11. 1 sludge.

Description

The invention relates to heat ’energy, in particular to steam turbine plants of thermal power plants.

The purpose of the invention is to increase efficiency and maneuverability under variable loads.

The drawing shows a schematic diagram of the proposed thermal power station.

The thermal power station contains a steam generator 1, a steam turbine 2 with pipes 3-5 taps, a condenser 6, low pressure regenerative heaters 7-10, constant pressure deaerator 11, a feed pump 12, high pressure regenerative heaters 13-15 included in the path 16 feed water, pipelines 17-21 with shutoff body 22 shutoff valves 23-33 and control throttle valve 34. ' The deaerator 1 1 is connected to a steam heating pipe with shutoff valves 23, 24 and a throttle control valve 34 to the pipes 4 and 5 of the steam selection. The high pressure heater 13 for the heated agent is additionally connected at the inlet by a pipe 19 with shutoff valves 33 with a main condensate line behind the last low pressure heater 10, and at the outlet with a pipe 17 with a deaerator 11 after the shutoff member 22. The high pressure heater 14 at the inlet 52 1 is sent to the high-pressure heater 13, is heated in the last steam of the selection from the pipe 5 to a temperature close to the temperature of saturation of the steam of this selection,. and then discharged into the deaerator 11. In this case, the shutoff valves 24, 26, 33 are open, and the shutoff member 22 and the fittings 23, 27 and 29 are closed.

Feed water after the feed pump 12 enters through the pipe 18 to the heaters 14 and 15 and then to the steam generator 1, the drainage of the heaters 14 and 15 is discharged to the deaerator 11, and the drainage of the heater 13 to the heater 10. At the same time, the shutoff valves 28 and 30 are closed, and stop valves 25, 31 and 32 are open.

When the loads of the thermal power plant do not provide the difference between the saturation temperatures of the heating steam in the deaerator 11 and the high-pressure heater 13 equal to 6-10 ° C or more, the shutoff valves 24-26, 31, 32nd 33 are closed, and the shut-off element 22 and valves 23,27-30 are open and the steam turbine unit operates according to the known scheme30.

Claims (1)

Claim A thermal power station comprising a steam turbine with steam sampling, sequentially included in the feed water path to the reheated agent is connected by a pipe 18 to the feed water path 16 after the feed pump 12. The drainage pipes of the high-pressure heaters 13 and 14 are connected by a pipe-20 and 21, respectively, to the low-pressure heater 10 and the deaerator 11. Thermal power station operates as follows. At partial loads, when the deaerator 11 is fed with steam of a higher potential extraction (from pipe 4), and the difference between the saturation temperatures of the heating steam in the deaerator S and the high-pressure heater 13 is 6-10 ° C or more, which ensures the normal operation of the deaerator as heat and mass transfer apparatus, the main condenser (supply water) after the low-pressure heater 10, inactive low-pressure heaters, a shut-off element, a deaerator, and high-pressure regenerative heaters, with heating medium each heater is connected to a steam take-off of the corresponding potential, and the deaerator through shut-off valves to at least two steam take-offs of different potential, characterized in that, in order to increase the economy and maneuverability under variable loads, the first regenerative heater along the feed water high pressure is additionally connected at the inlet and outlet through the heated medium by pipelines with shutoff valves to the feed water path, respectively, before and after the shutoff member, and through the heating medium to During - the selection of a low pressure deaerator.