SU1521889A1 - Steam power plant - Google Patents

Abstract

The invention relates to a power system, and can be used at combined heat and power plants with a large tempering steam supply and low condensate return from production and improves the efficiency and reliability of the plant. Upper and lower mains heaters 6 and 7 of steam turbine 2 are included in pipeline 8 of additional feed water after vacuum deaerator (VD) 9, Reported by pipeline 13 of demineralized water with desalting unit 14 and pipeline 15 of heating agent with pipeline 8 after upper network heater 6. In The cutting of the desalting water pipeline 13 includes an additional water-cooled heat exchanger 16 made of corrosion-resistant materials, the inlet 17 of which is connected to the heating agent pipeline 15 via a heating agent a VD 9 and outlet 18 to pipeline 8. The deaerated additional feed water is successively heated with steam from turbine 2 in the lower and upper network heaters 7 and 6 and fed to deaerator 10, before which part of the water is taken and used as a heating agent for the HP 9 and an additional water-to-water heat exchanger 16, and in the latter, the heating of the desalted water using the low-grade heat-transfer agent, necessary for vacuum deaeration, is performed. 1 il.

Description

The invention relates to a power system and can be used at combined heat and power plants with pain shim release of process steam and low return of condensate from production.

The purpose of the invention is to increase the efficiency and reliability of the station.

The drawing shows a part of a schematic diagram of a station related to a steam turbine installation.

The station contains a boiler 1, coupled in pairs with at least one steam turbine 2 having a condenser 3. The upper and lower heat recovery taps 4 and 5 of the steam turbine 2 are connected respectively to the upper and lower network heaters (VSP and NSP) 6 and 7, included sequentially in the pipe 8 of additional feed water after the vacuum deaerator 9 of additional feed water. The pipeline 8 is connected to the deaerator 10 of the feed water of high pressure in communication with the paths 11 and 12 of the condensate and feed water. The vacuum deaerator 9 is connected by a demineralized water pipe 13 with a desalination plant (DU) 14 and a heating agent pipe 15 - with a pipe 8 after the network heater 6.

The station is equipped with an additional water-to-water heat exchanger included in the dissection of the desalination water pipe 13. The vacuum deaerator 9 is also a water-water heat exchanger, the inlet 17 of which is connected to the heating agent pipe 15 of the vacuum deaerator 9 through the heating agent, and the outlet 18 to the additional pipe 8 feed water after the vacuum deaerator 9. Regenerative heaters 19 and 20 are installed in the paths 11 and 12, the Water-to-water heat exchanger 16 is made of corrosion-resistant materials.

The station operates as follows,

Z l

The steam generated by the boiler 1 'is supplied to the steam turbine 2 and to other station turbines. In the condenser 3 is heated to 25 ~ 30 ° C by the exhaust steam of the turbine, the source water supplied to the OS 14. Desalted water is heated in an additional water ^-to- water heat exchanger 16 ro 40-4 5 C and deaerated in a vacuum deaerator 9. Deaerated additional nutrient water with a temperature of 55-60 ° C flows through line 8 to the lower network heater 7 and then to the upper network heater 6, where it is heated to 100-120 ° C with steam from the heating (heating) taps 4 and 5, and then fed to the deaerator 10 Part of the water with a temperature of 100-120 ° C tbiraetsya from line 8 before the deaerator 10 (for network preheater 6) for heating agent conduit 15 is fed into the vacuum deaerator 9 and the optional water-water heat exchanger 16 where it is used as a heating agent.

I

Providing the necessary heating for demineralized water for vacuum deaeration using a low-grade heat transfer medium by placing a water-water heat exchanger 16 not before, but after a water-desalination plant 11, can reduce the heat loss of the water-desalination plant 14 associated with the regeneration and loosening of filters, and the use of a water-water heat exchanger 16 of corrosion-resistant materials increases the reliability of its operation on water with high corrosion properties.

Claims (1)

Claim A thermal power plant containing at least one steam turbine with upper and lower heat by steam extraction connected to the upper and lower network heaters, connected in series in the pipeline, of additional feed water after the vacuum deaerator of additional feed water communicated by the desalinated pipeline water with a desalination plant and a heating agent pipeline - with an additional feedwater pipe after the upper network heater, I distinguish ayasya in that, in order to increase efficiency and reliability, provided with a station included in the crosscuts additional desalted water pipeline pressurized water heater, whose input is connected to the agent by heating to a heating agent conduit of the vacuum deaerator, and an output - to incremental feedwater conduit. Composition Itel V. Gutorov