SU1160068A1 - Steam power plant of station with common-station steam main line - Google Patents

Abstract

1. A PAROSIL-OIL INSTALLATION OF A STATION WITH A STATION NORMAL STATION, containing a boiler connected to a multi-stage turbine of a live steam pipe and hot and cold reheating pipelines, a steam receiver in the form of a feedwater deaerator and an auxiliary condenser, and bypass lines with cooling-cooling devices and with cooling-cooling devices and with cooling-cooling devices and with cooling-cooling devices and with cooling-cooling devices and with cooling-cooling devices and with cooling and cooling devices and with cooling and cooling devices and with cooling and cooling devices, and bypass devices with cooling and cooling devices, and bypass-cooling devices with cooling and cooling devices, and bypass-cooling devices with cooling and cooling devices, and bypass devices with cooling and cooling devices, and bypass-cooling devices with cooling-cooling devices, as well as with cooling-cooling devices, and bypass-cooling devices with cooling-cooling devices, and bypass-cooling devices with cooling-cooling devices, and bypass-cooling devices with cooling-cooling devices, and bypass cooling fittings with cooling-cooling devices, and bypass-cooling devices with cooling-cooling devices, and bypass-cooling devices with cooling-cooling devices, and bypass-cooling devices with cooling-cooling devices, and bypass-cooling devices with cooling-cooling device medium pressures, one of which is connected between the live steam pipe and the cold reheat pipeline, and the other between the hot pipe overheating and condenser, characterized in that, in order to increase efficiency and maneuverability in the operation with frequent starts and stops, the installation is additionally equipped with at least one auxiliary turbine with an electric generator, the input of which is connected respectively to the bypass line SS of the high pressure cylinder and ( or) a low pressure cylinder in front of the reduction cooling unit, the outlet to the cold reheat pipeline and (or) to the steam receiver. O) O) 00

Description

2. Installation according to claim 1, characterized in that the first of the auxiliary turbines at the output is connected to the station main and feedwater deaerator, and the second to the steam receiver in the form of an auxiliary condenser.

3. Installation according to claim 1, characterized in that the auxiliary turbines are installed on the same shaft and the second auxiliary turbine at the output is connected to the common steam main line and to the feedwater deaerator.

The invention relates to heat and power engineering and can be used to create new and modernize existing steam power plants of thermal power plants.

The purpose of the invention is to improve the efficiency and maneuverability in the mode of operation with frequent starts and stops.

FIG. Figure 1 shows a variant of the installation scheme with two auxiliary turbines, one of which is connected in parallel with the bypass line of the high pressure cylinder, and the second is parallel to the bypass line of the low pressure cylinder; in fig. 2 - a variant of the installation scheme with a single two-cylinder turbine, the exhaust of which is connected to the steam receiver (deaerator). .

The steam-powered unit comprises a boiler 1 connected to a multistage turbine having a high-pressure cylinder 2 (HPC), a direct steam steam line 3. The exhaust of the HPC 2 of the turbine is connected to the boiler 1 by the pipe 4 of the cold reheat heating (HPP). Pipeline 5 of hot reheat (GLP) is connected to the cylinder 6 of the medium pressure (DCP) turbine. To the steam line 3, the steam is connected to the bypass line 7 with the reduction cooling device (DOC) 8 included in it, the exhaust of which is connected to the HPP pipeline 4. A pipeline 9 is connected to the GPP pipeline 5 with a DOC 10 connected to it, the exhaust of which is connected to condenser 11. To the bypass line 7 an additional steam pipe 12 is connected with a shut-off regulator 13 connected to it, connected to the auxiliary turbine 14 inlet which steam line 15 is connected to the steam line 4 HPP (Fig. 1).

The installation may also contain a steam line 16 with a stop valve 17, connected to the bypass line 9 n to the second auxiliary turbine 18, the steam receiver - deaerator 19, the general station steam line 20.

The output (Fig. 1) of the auxiliary turbine 14 with the steam lines 21 and 22 is connected respectively to the deaerator 19 and the plant station 20, and the output of the auxiliary turbine 18 to the steam receiver is connected to the auxiliary condenser 23. The output of the turbine 18 can generally be connected to the main condenser 11 The input (Fig. 2) of the auxiliary turbine 18 by the steam line 24 is connected to the main station 20, and the output of this

turbine 18 with steam pipe 25 is connected to deaerator 19, and steam pipe 26 with main station 20. It is advisable to use the installation in variable modes: start-up, in the initial state of which the temperatures of the main turbine metal are quite high; shutdowns without cooling down the main turbine; load shedding, with the turbines 14 and 18 mounted on the same shaft.

Installation on variable modes

(Fig. 1) works as follows.

In the start-up mode, after the vacuum has been set up in the condenser 23, the boiler 1 is started firing. After the steam flow in the steam line 3, the DOC 8 is opened, discharging steam through the bypass line 7 to the pipe 4.

HSP. The shut-off and regulating body 17 is opened, providing on the one hand the warming up of the auxiliary turbine 18 while its rotor rotates with a speed lower than the nominal one, and on the other hand -

Increasing the pressure in the reheat system at a rate not exceeding the allowable one. At a sufficiently high flow rate of steam in the pipeline 5 GPP and increase the pressure in it to a relatively high (approximately 0.1 nominal) level increase

the rotational speed of the rotor of the turbine 18 is up to nominal and the generator is synchronized. In the period of increasing the flow rate and pressure of steam in the hot steam pipeline 3, if necessary, the shut-off valve 13 is opened, ensuring the turbine 14 is heated. After increasing the pressure and flow of steam in the steam pipeline 3 to the required level, the rotor speed of the turbine 14 is increased to the nominal value and the generator is synchronized ROW 8

close up. Part of the steam from the turbine 14 is fed to the HPP pipeline 4, and part through the steam pipelines 21 and 22 to the deaerator 19 and (or) to the general station highway 20. To the deaerator 19, condensate is supplied (for example, from the reserve tank, not shown) and the boiler is powered 1 water from the deaerator. Vacuum is accumulated in the condenser 11. After the 3 steam parameters increase in the steam pipe to a level at which steam can be supplied to the main turbine pressure cylinder 2. the rotor speed is increased last and after synchronization of the main generator, the steam supply to the auxiliary turbines 14 and 18 is stopped. In the stop mode, the vacuum in the condenser 23 is accumulated in the reserve and, if necessary, the auxiliary turbines are heated. The turbine 14 is heated by supplying steam in the direction opposite to the worker, first from the general station 20, then from the HPP pipeline 4 (steam is discharged through a drain placed between the turbine 14 and the shut-off and regulating body 13), the final progress is carried out proceeding in the working direction steam taken from the steam line 3. The turbine 18 is heated by steam from the 5 GPP pipeline, which flows in the working direction. After warming up the auxiliary turbines stop the flow of steam to the HPC 2 and CCD 6 of the main turbine. The fuel supply to the boiler 1 is shut off. Zaprno-re leasing bodies 13 and 17 increase the rotational speed of the rotors of the auxiliary turbines 14 and 18, supplying them with steam produced in the boiler due to thermal accumulation. If necessary, steam is supplied to the deaerator 19 and / or the general station main 20. When the load is discharged, the main switchgear 8 and 10 is opened after the main turbine generator is disconnected. Then, depending on the thermal state of the turbines 14 and 18, and the presence or absence of vacuum in the condenser , the following modes are possible. In the event that the initial state of the turbines 14 and 18 is close to the nominal state and there is a vacuum in the condenser to which the latter is connected, the locking bodies 13 and 17 are opened, synchronize the generators of the auxiliary turbines and close DOC 8 and 10. In the initial state The turbines 14 and 18 do not correspond to the steam temperatures in the steam line -3 and pipe 5, respectively; steam is not supplied to the turbines, but some heat is utilized by supplying steam from pipe 4 through the steam lines 15 and 22 to the main station 20 and a steam line 21 into deaerator 19. The boiler 1 continues feeding feed water. Organization of variables. installation modes (Fig. 2) has the following features. In the initial start-up period of the turbine 18, if necessary, in addition to the steam entering the steam pipe 16 from the GPP pipeline 5, steam is supplied to the steam pipe 16 from the plant station 20 via the steam pipe 24. Under certain conditions, for example, if steam is required to be fed to the trunk 20 to start other installations connected to it, the start-up of the installation (fig. 2) can be carried out without vacuum in the condenser P. At the same time, steam from turbine 18 is dropped into deaerator 19 and line 20. This not only improves the maneuverability characteristics installation by reducing the preparation time for start-up, but also its efficiency due to the exclusion of losses in the condenser. When stopping in reserve, steam generated in boiler 1 when its heat accumulates is triggered, successively enters turbine 14, pipelines 4 and 5, turbine 18, and is discharged into general station 20 via steam line 26 and deaerator 19.

Claims (3)

1. A STEAM POWER PLANT OF A STATION WITH A GENERAL INSTALLATION MAIN STEAM, comprising a boiler connected to a multi-stage turbine by a steam pair of hot steam and cold and hot superheat pipelines, a steam receiver in the form of feed water deaerator and auxiliary condenser, and bypass lines with pressure reducing and cooling devices medium pressure, one of which is connected between the steam line of the hot steam and the cold industrial overheating pipe, and the other between the hot industrial pipe roar and condenser, characterized in that, in order to increase efficiency and maneuverability in the mode of operation with frequent starts and stops, the installation is additionally equipped with at least one auxiliary turbine with an electric generator, the input of which is connected respectively to the bypass line of the high pressure cylinder and (or) low-pressure cylinder in front of the reduction and cooling device; exit to the cold industrial superheat pipeline and (or) to the steam receiver. > 2. Installation according to π. 1, characterized in that the first of the auxiliary turbines at the outlet is connected additionally to the plant-wide line and feed water deaerator, and the second to the steam receiver in the form of an auxiliary condenser. 3. Installation according to π. 1, characterized in that the auxiliary turbines are mounted on the same shaft and the second auxiliary turbine at the outlet is connected to the steam station main line and to the feed water deaerator.