SU1590569A1 - Steam electric plant - Google Patents

Abstract

The invention relates to the field of power engineering, can be used in schemes of combined heat and power plants and allows to increase the efficiency of the station. The station contains a turbine 1 with 2,3 and 18 pair selections. In the source water pipeline 12 before the chemical water treatment 13, an abstractional heat pump installation (HPI) 14 is connected, connected on the cold side to the drain water supply pipe 8 and the return network pipeline 6, and through the operating pair to the regenerative selection 18 that precedes the heating selection 3. Source pipeline 12 water between the heat pump unit 14 and chemical water treatment 13 includes an additional heater 15 connected by condensate pipelines 16 and 17 to the heat pump unit 14 and to the suction port 10 of the condensate pump 11 of the turbine 1. The source water was heated It is used in the heat pump unit 14 and the additional heater 15. The heat source of the heat pump unit 14 uses the heat of the circulating water heated in the condenser 4, which increases the thermal capacity of the station. The heat of condensate of the steam regenerative withdrawal 18 after the heat pump unit 14 is used in the additional heater 15. When the turbine 1 is switched to the operating mode according to the heat schedule, the heat pump unit 14 is connected to the return water line 6. 3 hp f-ly, 1 ill.

Description

The invention relates to the field of power engineering and can be used in schemes of combined heat and power plants, mainly operating in conditions of deficiency of electric and thermal power and with a small consumption of make-up water of the heating system.

The aim of the invention is to increase efficiency.

The drawing shows a schematic diagram of a thermal power plant (cogeneration) within one turbine.

The station contains a steam turbine 1 with production 2 and heating 3 taps and a condenser 4. Network heaters 5 connected between the return 6 and the direct (supply) 7 network pipelines are connected to the heating taps 3. The drain 8 and pressure 9 pipelines (circulating water) of the circulation water and the suction pipe 10 of the condensate pump 11 are connected to the condenser 4. The station is equipped with a heat pump (14) and an additional heater 15 connected between the source water before the chemical water treatment (HVO) 14 and the additional heater 15 connected between HVO 13 and ТНУ 14 and condensate-connected pipelines 16 and 17, respectively, with ТНУ 14 and with the suction pipe 10 of the condensate pump 11. ТНУ 14 is connected on the cold side to the drain pipe 8 of the circulation water and up to additionally to the return network pipe 6, and through the working medium (working steam) to the regenerative selection 18, preceding the heating selection 3 along the steam in the turbine 1. Through the CWO 13 and the decarbonizer 19, the source water pipe 12 is connected to a vacuum deaerator (VD) 20 with a pipe 21 drain water make-up. HPU 14 can be performed in water absorption heat pump.

Thermal power plant operates as follows.

The return network water entering through the return network pipeline 6 is heated in the network heaters 5 and is supplied through the direct network pipeline 7 to consumers (not shown). The leakage of network water is replenished with make-up water prepared in HVO 13, decarbonizer 19 and VD 20. The source water is heated to 50 ° C in the heat pump 14 and the additional heater 15. For the heat pump drive (absorption heat pump) 14, regenerative steam 18 is used. Heat the condensate of this steam after HPP 14 is used to heat the source water in an additional heater 15, and then the condensate with a temperature of about 55 ° C is discharged through the pipe 17 to the suction pipe 10 of the condensate pump 11 and together with the condensate the exhaust atom of the turbine 1 is heated in a regeneration system (not shown). As the heat source for HPP 14, the heat of heated circulating water from drain pipe ⁵ (circulating water supply) 8 is used, due to which the heat capacity of the station increases by the amount of heat received from the heat of circulating water. In addition, due to the cooling of the circulating water in the HPU 14, the vacuum in the condenser 4 increases and, accordingly, the electric power of the turbine 1 increases.

When transferring turbine 1 to the operating mode according to a heat schedule with a minimum steam passage to condenser 4, the heat of the return network water supplied to the HPP 14 from the return network pipeline 6 is used as the heat source for HPU 14. In this case, a decrease in the temperature of the network water allows decreasing pressure in the heating selections 3 and increase the generation of electricity by heat consumption.

Claims (4)

Claim 1. Thermal power plant containing a steam turbine with industrial, regenerative and heating selections, the latter of which are connected to network heaters connected between the return and direct network pipelines, a condenser with a suction pipe of a condensate pump, a drain and pressure pipelines of circulating water, and the original pipe water, connected through a chemical water treatment and calciner to a vacuum deaerator with a pipe of drainage of make-up water, characterized in that, in order to increase efficiency, the station is supplied with the source water included in the pipeline before the chemical water treatment, a heat pump installation connected on the cold side to the circulating water drain pipe, and in the working environment - to the regenerative steam extraction preceding the heating tap. 2. Station on π. 1, characterized in that the heat pump installation is made in the form of an absorption heat pump. 3. Station on PP. 1 and 2, characterized in that the station is equipped with an additional heater included in the pipeline of the source water between the water treatment and heat pump installation and communicated by condensate to the heat pump installation and the suction pipe of the condensate pump. 4. Station on π. 1, characterized in that the heat pump installation on the cold side is additionally connected to the return network pipeline.