SU1307060A1 - Steam-turbine plant - Google Patents

Abstract

The invention relates to a power system and m. used on block turbine units with a steam turbine driven feed pump. The invention allows to increase the efficiency of the installation. At the nominal load of the main turbine 2 and the network heaters (SP) turned on, they cover the regulator 9, which increases the vapor pressure in the exhaust pipe (T) 8 of the turbo drive 6. This opens the vapor inlet 4, which leads to a decrease in throttling losses in it. The higher pressure vapor from T8 enters the main SP 10. In this case, the heating in the latter increases, and in SP 23 it decreases. The check valve 22 is closed, and part of the steam from T 8 is discharged into the flow part (FC) of the turbine 2 at the take-off point 17 and the preheater 14. At partial loads of the turbine 2 and the SPs switched on. when the pressure in the selection of 16 Mensp1e pressure in T 8, part of the steam jumper 21 enters the turbine frequency converter 2 at the sampling point 16, where the pressure is higher than the selection 17. With the joint ventures turned off, the entire load of the junction 21 jumper enters the turbine frequency converter 2 selection 16. Preheating of low pressure preheater 14 is made from selection 17. At nominal load of turbine 2 and disconnected SP 9, the organ 9 is open, the pressure in T 8 is calculated and the steam is released but T 20 to heater 14 and to the turbine frequency converter 2. Valve 22 is closed. 1 hp f-ly, 1 and, p. (L o o o o o o

Description

The invention relates to a power system and can be used on modular turbo-installations with a steam-turbine driven feed pump.

The purpose of the invention is to increase the efficiency of the operation of a steam turbine with a back-pressure turbo drive of a feed pump.

The drawing shows a schematic diagram of a steam turbine installation.

The steam turbine plant contains a steam generator 1, a main steam turbine 2, high-pressure regenerative heaters 3, a deaerator 4, a feed pump 5, a feed pump drive — a back-pressure steam turbine 6 with steam inlets 7. A regulator 9 is installed on the exhaust pipeline 8 of the drive turbine. The main network heater 10 additional pipe 11 is connected to the exhaust pipe of the turbo drive to the regulatory authority. Regenerative heaters 12-15 low pressure connected to the nozzles of the regenerative selection of the main turbine corresponding pressure pipelines 16-19. A pipe 20 connects the exhaust pipe of the turbo drive downstream of the regulator with the corresponding steam supply pipe 17 to the regenerative preheater and to the flow part of the main turbine. A jumper 21 with a check valve 22 connects the exhaust piping to the regulator with the flow section of the main turbine to piping 16, where the design pressure is higher than the counter-pressure of the turbo drive at nominal speed. Peak mains heater 23 is connected by conduit 24 to a regenerative selection of a corresponding pressure.

The installation works as follows.

At the nominal load of the main turbine and the network preheaters turned on, the regulator 9 is covered and thereby increase the vapor pressure in the exhaust pipe 8 of the turbine 6. In the case of the regulator 9 is closed, the steam inlet 7 opens, resulting in a reduction in throttling losses in the organ 7. Par higher pressure from pipeline 8 to regulator 9 through a separate pipeline 11 is supplied to the main network heater 10. As a result of heating it with steam of higher pressure, heating during s is increased, and the heating in the preheater 23 peak network umenschaets. The check valve 22 is closed, part of the steam from the exhaust of the turbo drive is discharged to the flow part of the main turbine through line 20 to line 17 and to low pressure preheater 14.

With partial loads of the main turbine and network heaters included

five

cover the regulator 9, which leads to an increase in vapor pressure in the exhaust pipe 8 of the turbine 6. Due to the cover of the regulator 9, the steam inlet 7 opens and the throttling losses decrease. The higher pressure steam from line B to regulator 9 through line 11 goes to the main network heater 10 and as it is heated by higher pressure steam, the heating in the main network heater 10 increases and the heating in the peak network heater 23 decreases. At partial loads of the main turbine, when the pressure in the regenerative selections decreases so much that the vapor pressure in the pipe 16 becomes less than the vapor pressure in the exhaust pipe 8 .0.0 of the regulator 9, the check valve 22 / opens automatically and a portion of the steam from the Turbo-drive exhaust, via jumper 21, enters the flow part of the main turbine to the place of its selection 16, where the steam pressure is higher than in the selection 17. The heating of the low-pressure heater 14 produces 5 seconds from the pipeline 17.

With partial loads, the main tour and disconnected mains heaters cover the primary organ 9 and thereby increase the vapor pressure in the exhaust pipe 8 of the turbine 6. Due to the cover of the regulator 9, the steam inlet member 7 opens and the throttling losses decrease. At partial loads of the main turbine, when the pressure in the regenerative selections decreases so much that the vapor pressure in

pipe 16 will become less than the vapor pressure in the exhaust pipe to the regulator 9, the check valve 22 automatically opens and all the steam from the exhaust of the turbo drive through jumper 21 stumps into the flow part of the main turbine to the place of the upstream selection 16 where the vapor pressure is higher than in the selection 17. The heating of the low-pressure preheater 14 is carried out from the pipeline 17.

At the nominal load of the main tour 5 and disconnected mains heaters, the regulator 9 is fully open, the pressure in the exhaust pipe 8 is calculated, and the steam after the turbo drive is discharged through pipeline 20 to low pressure heater 14 and to the flow part of the main turbine to pipeline 17. The check valve 22 is closed.

Claims (2)

1. A steam turbine plant containing a main steam turbine with steam extraction lines at various pressures. to the regeneration system, main and peak mains heaters, a feed pump located in the regeneration system driven by a steam back-pressure turbine, the steam supply steam pipe and exhaust pipe of which are equipped with a regulating one, with their organs, and the exhaust pipe is connected to one of the steam selections characterized in that increase efficiency, the main network heater is connected by an additional pipeline to the exhaust pipe to the regulator. 2. Installation according to claim 1, characterized in that it is provided with a jumper with a check valve connecting the additional pipeline with the pipeline for the extraction of higher pressure steam.