SU1343040A1 - Method of stopping power unit with cooling turbine - Google Patents

Abstract

The invention relates to a power system and can be used but ita thermal power plants with steam turbine power units when turbines and generators are stopped for the purpose of repairing them. The invention makes it possible to increase the reliability of the cooling process. In the method, steam consumption for heaters (P) 16 and 17 of low pressure is reduced, 11 21-23 psof: oro pressure and deaerator 1 1 with subsequent disconnection by steam. The low pressure cutoff is produced starting from the last in the course of the feed water. At the same time, provision is provided for (L с 4 о: О 4 О / 7 16 15 If and mont. Fig 1

Description

with ts, the reduction of r -rm pitagch-iyyuy node entering the boiler. This leads to an increase in the amount of heat, BOcnpMut - fresh steam. The t-ras of flue-heat pumps is reduced before the intermediate superheater 48 of the boiler 1, and consequently, the t-ra of the steam reheat at the outlet of the boiler 1 and in front of the cylinder 7 of average pressure. At the same time, due to the smaller effects on the injectors 51, the heat output of the boiler

one

The invention relates to heat and power engineering and can be used at thermal electric power plants with steam turbine power units when turbines and generators are stopped for the purpose of repairing them.

The purpose of the invention is to increase the reliability of the cooling process.

Figure 1 shows the circuit diagram of the power unit for the implementation of the proposed method, figure 2 shows the curves characterizing the change in the main parameters, and the sequence of technological operations when the unit is stopped with cooling down according to the proposed method.

The power unit includes a boiler 1 connected by a steam pipe 2 of fresh steam to a turbine consisting of series-connected in series: stop valve 3, high pressure control valves 4, cylinder, high pressure core 5, pressure control valves 6, cylinder medium pressure (CCD), low pressure cylinder 8 (LPC), condenser 9. A condensate pump (KN) 10 is connected to the latter, which is connected to the deaerator 11 by the condensate duct 12, on which low-pressure heaters 13-17 are installed. The deaerator 1 1 is connected to a feed pump (PN) 18 driven by a driven turbine 19. The PN 18 is connected to boiler 1 by a feed duct 20, on which high-pressure heaters 21-23 are installed. PND 13-17 are connected by pipelines 24-28 of withdrawal to the central design documentation 7 and low pressure cylinder

 4 10 40

and other means .--.: 1, steam reheat steam simplifies regulation of the process of cooling down. Due to a decrease in the flow rate of water supplied to start-up injection 51, dropping out of water from the steam flow to the walls of the pipe 50 behind the injection 51 decreases, which reduces the likelihood of damage to pipelines 50 as a result of thermal stresses. 3 hp f-ly, 2 ill.

five

8 turbines. Similarly, the deaerator 1 1 is connected to pipe and tube 29 by pipe 29, LDPE 21-23 by pipelines 30-32, respectively, driven turbine 19 by pipe 33. On all pipes 24-33, valves 34-43 are installed, respectively. In the feed line 20, a regulator is regulated by a feed valve (RPK) 44. Fuel to boiler 1 is supplied via a line; and 45, on which a clathan 46 is installed (control unit for fuel consumption). The steam line 2 has a set-up start-KOBoii injection 47 (a device for controlling the temperature of the fresh steam). The HPC 5 is connected to the control valves 6 of the CCD 7 through an intermediate superheater 48 of the boiler 1 with pipes 49 and 50, the last of which is equipped with a booster injection 51 of the superheater (a device for controlling the temperature of the steam reheating). Start-up injection 47 and 51 are connected to water sources (not shown). In addition to the injection 51, a bypass line 52 (bypass of the reheat) with a regulator 33 installed on it is provided to regulate the temperature of the reheat temperature. To regulate the flow rate of steam to the deaerator 11, a control valve 54 is used, and the flow control of the drive turbine 19 is controlled by control valves 55 .

5 The temperature state is monitored by: HPC 5 - by devices 56, DSCD 7 - by devices 57. The magnitude of the relative expansions of the rotors of the HPC 5 and DCP7 is measured by devices 58

about

0

and 59, respectively, the temperature of fresh steam in front of the turbine is measured by device 60, and its pressure is measured by device 61. Devices 64 and 63 are used to measure the temperatures of industrial reheat steam before CCD 7 and feed water, and device 64 is used to measure feed flow. according to the electrical power of the generator 65 measured by the device 66. The fuel consumption into the boiler is determined by the device 67. Each of the measuring devices contains at least a sensor and a secondary (indicating) device (not shown).

Fig. 2 shows curves 68-73 (transient), respectively, of changes in temperature of fresh steam tp, fresh steam pressure PO, temperature of superheated steam t, fuel consumption B fed to boiler 1, feedwater temperature and load of turbine N in time 1 , as well as technological operations: I - the beginning of the reduction of the turbine load and the temperature of the steam reheat- ing; II - the beginning of the decrease of the fresh steam temperature and the steam consumption for the LDPE 21-23 and deaerator 11, the commissioning of the starting injections 47 and 51i III - the end of the reduction process temperature with first pair start of turbine load reduction to the minimum; IV - disconnection of a pair of LDPE 21-23 and deaerator 11, the beginning of a reduction in steam consumption for HDPE 16 and 17

V-off, a couple of HDPE 16 and 17;

VI - completion of the process of reducing the temperature of steam reheat; VII - completion of the process of reducing the temperature of steam reheat; VIII - completion of the process of cooling the turbine, stopping the power unit.

The method of stopping the power unit with turbine cooling is as follows.

First, the power unit is unloaded from a nominal load, approximately equal to 60-65% of the nominal value of the temperature and pressure of the fresh steam. For this, the impact on the control valves 55 of the drive turbine 19 of the PN 18 reduces the flow of feed water, controls it according to the indications of the device 64 device. At the same time, the impact on the valve 46 reduces the consumption of fuel supplied to the boiler 1. As the load decreases, the power unit and the turbine control

JUiHJieHne of fresh steam at CG1 of CH 61 and, if it starts to drop, then by covering the high-pressure control valves 4, the nominal value should be applied for: 1: 1. To maintain the nominal temperature of the fresh steam, the main boiler injections are used (not Q shown). The load nesting speed is maintained so as to prevent the output from the tolerance interval of the Nbix values of the thermally stressed state of the elements of the CVP 5, 5 which are controlled by the device 56. At the same time, the relative value of the relative expansion of the rotor of the digital voltage meter 5 is monitored m device Q device 58.

Simultaneously with a decrease in the turbine load, the temperature of the reheat steam is reduced due to a decrease in the heat load of the boiler 1 5 (its furnace) and the temperature of the flue gases before the intermediate superheater 48. The rate of reduction of this temperature is controlled by exposure to gas recirculation gases (not Q shown) or to other standard devices for adjusting the reheat steam temperature. The magnitude of this speed is supported by the results of the cool downs of the CHSD 7; The parameters characterizing the reliability of the cooling of the CHSD 7 are based on the relative expansion ratio of the device, monitored by the device device 59, and the indicators of the thermally stressed state controlled by the device device 57.

After reaching a load of 60-65% of nominal, the process of its further reduction is temporarily stopped, and it is maintained approximately constant. At the same time, the temperature of the fresh steam before the turbine is started to decrease, for which the main injections of the boiler are affected and the starting injections of A7 are put into effect. Sko5

the rate of lowering the temperature of snow

The pair, controlled by the device of device 60, is maintained so that the thermally stressed values of CVP 5, the definition of the device 56, and the magnitude of the relative expansion of the rotor CVL 3, which is controlled by the device 58, does not come from the range of the VCTHMI. ;: -; values. At this stage ggr lochzhpyut

lowering the temperature of the steam to the industrial steam vane deaerator by closing the burner, the speed of which is controlled by the valves 39 on the pipeline 29 and we, depending on the change, relate to covering the valves 38 and 37 for

to expand the rotor of the CCD 7 and reduce the steam consumption in the PND 17 and 16. Thermal adjustment index is 5 With a load of approximately 40%

No SDC 7. To reduce the temperature of the nominal, valves 38 and 37 of the closed reheat steam include emergency injections of feed water in the gap and the PND 17 and 16 are disconnected in pairs,

exact point of the reheat route

After the turbine load has been reached (not shown), and also the start-up is in the order of 25-35% nominal, long-distance injections 51. At the same time, with our reduction, it is stopped. At this beginning of the reduction in the fresh load temperature, the decrease in the temperature of the steam begins to cover the gate valves of the reheat steam to a minimum of 40-42 on the thermal pipes 30-32, the selection value determined from the condition

J5 exceeds the saturation temperature corresponding to the vapor pressure upstream of the control valves 6 by at least 15-20 ° C. To adjust the steam temperature of the reheat on the completion of the PVD 21-23. To reduce the steam supply to the deaerator 11, the control valve 54 is covered. The back cover is 40–42 and the valve 54 is stepped, based on maintaining the desired steam temperature in front of the CCD 7. After the minimum steam reheat temperature is reached and the turbine is stabilized to cool the turbine under load

The speed of reducing the temperature of the pi-20 th stage, except for the previously used water controlled by the means of transport, is used bypass rus, rifles 63. This speed sets the line 52 with the regulator 53, based on the reliable opening of which A portion of the steam jet LDPE 21–23 is supplied during their cooling. in addition to the intermediate superheater

When the temperature reaches fresh, this additionally reduces the steam to the order of 420–430 ° C, and its further decrease is stopped, and then it is kept approximately constant until the end of the cooling process. At a constant temperature, it is completed and it is disconnected from simultaneously fresh steam; further, the boiler is stopped 1. Reduce the load of the turbine to a value of the order of 25-35% nominal. For this, the impact on the control valves 55 of the drive turbine 19 PN 18 reduces the flow of feed water, controls it according to the indications of the device device 64. At the same time, the impact on the valve 46 reduces the consumption of fuel supplied to the boiler 1. To maintain the temperature of the fresh steam, start injections 47, as well as regular (main) injections in

I

Reducing steam consumption for low and high pressure heaters 16, 17, 21, 23 and deaerator 11 and then disconnecting them with steam reduces the feed water temperature by entering boiler 1. This causes an increase in the amount of heat perceived by the fresh steam. The temperature of the flue gases before the intermediate superheater 48 of the boiler 1 decreases, and consequently the temperature of the superheated steam at

40

Reducing steam consumption at low, high pressure heaters 16, 17, 21, 22 and 23 and deaerator 11 and then disconnecting them with steam ensures a decrease in the temperature of heating water supplied to boiler 1. This leads to an increase in the amount of heat perceived fresh ferry. The temperature of the flue gases is reduced before the intermediate overheating of boiler 48 of boiler 1, and therefore the temperature of the steam reheat at

boiler path 1. As far as the decrease is. „„ „„

JC exit from the boiler 1 in front of the CHSD 7. When loading with the cover of the regulating valves - 45 g “-“ in 4, the nominal pressure of the fresh steam is maintained. The rate of reduction of the load is adjusted so as to maintain the allowable values of the relative expansion of the rotor of the HPC 5, controlled by the device 58, as well as indicators of the thermally stressed state of the HPC 5, controlled by the device 56.

This is due to the smaller effects of the injecting injections 51, the heat load of the boiler 1 and other means of regulating the temperature of the steam

CQVA simplifies regulation of the process of cooling down, and due to a decrease in the flow rate of water supplied to the starting injection 31, the precipitation of water droplets from the steam flow is reduced.

, on the walls of the pipeline 50 behind the injection 51, which reduces the likelihood of damage to the pipelines 50 due to the effect of thermal stresses.

In the process of unloading the turbine at a load of about 50% of the nominal, the LDPE 21-23 is disconnected for a couple, for which the valves 40-42 are closed. Open; ponominal, valves 38 and 37 closed

wake and HDPE 17 and 16 are disconnected by a couple,

steam temperature before CCD 7. After reaching the minimum temperature of the steam reheat and its stabilization, turbine cooling down under load

  thereby further lowering is completed and it is turned off with a simultaneous shutdown of the boiler 1.

  thereby further lowering is completed and it is turned off with a simultaneous shutdown of the boiler 1.

I

Reducing steam consumption to low and high pressure heaters 16, 17, 21, 22 and 23 and deaerator 11 and then disconnecting them with steam ensures lower feed water temperature by entering boiler 1. This leads to an increase in the amount of heat perceived by the fresh steam. The temperature of the flue gases before the intermediate superheater 48 of the boiler 1 decreases, and consequently the temperature of the superheated steam at

. „„ „„

out of the boiler 1 before the DCPD 7. With r "-" output, due to the smaller effects on the start-up injections 51, the heat load of the boiler 1 and other means of controlling the temperature of the pro-reheat steam, the regulation of the cooling process is simplified, and due to a decrease in the flow rate of water supplied to the start-up injection 31 dropping drops of water from the vapor stream

on the walls of the pipeline 50 behind the injection 51, which reduces the likelihood of damage to the pipelines 50 due to the effect of thermal stresses.

Claims (4)

1. A method of stopping a power unit with turbine cooling down by reducing the load, fresh steam temperature, steam reheating and feed water in the high and low pressure heaters and deaerator paths by affecting the heat load of the boiler, turbine control valves and steam temperature control devices, characterized in that in order to increase reliability, an additional decrease in the temperature of the feed water and steam is achieved, reducing the steam consumption from the turbine selections for preheating 8 The pressure is high to the full to shut them off by a couple. 2. Method according to claim 1, 1.0, which reduces the steam consumption per deaerator until it is completely disconnected in pairs. 3. The method according to claim 1, about tl and h and y - y and with the fact that reduce consumption a pair of at least one low pressure preheater until it is completely disconnected by the pair. 4. Method according to claims 1 and 3, about tl and - h and y i and with the fact that shutdown low pressure heaters are produced starting from the last in the course of the feed water.  73 5yB9 Vro 7J ABOUT- Fie.2 .M. Jj r yg mt Editor A. Kozoriz Compiled by V.Gutorov Tehred L, Serdyukova Corrector M. Pojo Order 4616/31 Circulation 481 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Pro official and printing company, Uzhgorod, st. Project, 4