RU2027865C1 - Thermal power station - Google Patents

Abstract

FIELD: heat-power engineering; peak polyunits including power units provided with pipe lines of cross members of boilers. SUBSTANCE: mounted in pipe line of transverse coupling is quick-acting automatic stop valve whose actuating mechanism operates by signal from electric contact pressure gauge. Units are of the condensing type with supercritical parameters of live steam and heat introducing type with subcritical parameters of live steam. Pressure gauge is mounted on transverse coupling pipe line in area of subcritical parameters of steam. EFFECT: enhanced efficiency.

Description

 The invention relates to the electric power industry and can be used in thermal power plants.

 Thermal power plants are known that contain peak power units of the same parameters of fresh steam, made by rigidly connecting them by transverse connections along the steam pipelines of primary fresh steam, cold and hot secondary steam into a single peak polyblock (1).

 Due to the transverse rigid connections of the boilers and turbines, it is possible to use them in the deep maneuvering mode for power control. A peak polyblock is created, as a rule, on the basis of power units with the same parameters of fresh steam, which ensures the unification of equipment and the greatest simplicity for maneuvering with capacities. To equalize the steam parameters in the pipelines of the primary and secondary steam of the boilers, traditional reduction cooling units (ROW) are used. The presence of the DOC allows steam transmission both for starting up individual power units after operational shutdowns and for unloading them during a period of decline in power consumption.

 The disadvantages of the peak polyblock include the difficulty of using to create a polyblock from power units with significantly different fresh steam parameters of boilers, for example, supercritical and subcritical pressures, since due to the significant difference in steam pressures, direct articulation of fresh steam pipelines is unacceptable under safety conditions.

 For this reason, polyblocks with boilers and turbines of different steam parameters are not created, although they can be created on the same principles by performing cross-connections with the installation of the DOC on the steam pipelines of the primary and secondary steam or by direct articulation of fresh steam pipelines while aligning their parameters and guaranteed reliability in this safety mode.

 A polyblock was adopted as a prototype according to the cross-connection scheme of fresh steam pipelines (1) with the use of supercritical steam pressure condensing power units and heating units - subcritical steam pressure to create it.

 The aim of the invention is to create a safe peak polyblock from power units with different parameters of the fresh steam of their boilers without the need to establish a DOC on the steam line connecting the boilers.

 This goal is achieved by installing at the junction of sections of the cross-sectional pipelines of fresh boilers, for example, supercritical and subcritical pressures, a high-speed automatic safety shut-off valve connected in the open position with the transverse connection engaged and the aligned parameters of the fresh steam of both boiler groups to the instantaneous operation circuit closure of supercritical pressure from the steam pressure pulse in the pipeline when the pressure rises to a level unacceptable for pipes a subcritical pressure line.

 Thanks to the installation of a high-speed automatic safety shut-off valve, it is possible to create a peak polyblock with boilers of different steam parameters, ensuring safety conditions by directly turning on the cross-link for a fresh pair of its boilers after aligning the steam parameters between boilers of supercritical nominal pressure condensing power units and subcritical boilers parameters of fresh steam of cogeneration power units. Involving the cross-connection of the boilers for fresh steam also makes it possible to additionally unload condensing turbines of power units instead of shutdowns by transferring fresh steam through a cross connection through cogeneration turbines to consumers of heat in steam and hot water with unloading their boilers by the amount of fresh steam received.

 When a sudden increase in the pressure of fresh steam on the boiler of a supercritical steam pressure unit, for example, due to an emergency discharge of an electric load by its turbine or for other reasons, an open quick-acting automatic shut-off valve is activated for instant closure by closing the cross-connection of fresh steam between the boilers with different nominal steam parameters, which eliminates the increase in steam pressure in the steam pipelines of fresh steam of subcritical pressure boilers x the permissible level.

New significant features are:
The installation of a fresh steam of supercritical and subcritical pressure boilers of a supercritical and subcritical pressure boilers at the junction of sections of the cross-section pipelines of the boilers, which is activated in the open position for instantaneous actuation upon closing from the pulse of increasing the vapor pressure in the supercritical pressure pipeline.

 Creation of a peak polyblock from steam turbine power units with significantly different (by 5.0-10 MPa) nominal parameters of the fresh steam of their boilers and turbines.

 The drawing shows a thermal power plant - peak polyblock.

 The peak polyblock contains condensing power units of supercritical steam pressure (ccd) as part of boilers 1 with a path 2 for intermediate steam overheating, steam lines 3 of fresh primary steam connected to turbine units 4 with generators, the exhausts of which are connected to condensers 5, condensate pumps I stages 6 of which, through low-pressure heaters 7 and 8 with condensing pumps of the second stage 9, are connected to the batchers 10. The heaters 7 are of a mixing type. The feeders 10 are connected to the feed pumps 11 and 12, respectively, with an electric drive and a pipeline, the pressure pipelines of which are connected through the groups of high pressure heaters 13 to the primary paths of the boilers 1. The peak polyblock also contains heating power units with cross-links for fresh steam in the boilers 14 subcritical parameters steam connected to cogeneration turbine units 15 with generators equipped with industrial extraction 16 steam connected to industrial consumer 17 steam, and heat culling tests 18 for heating the heating load water in the network heaters 19 with their network pumps 20. The turbine units 15 are also equipped with condensers 21, the condensate pumps 22 of which are indicated one after each through a group of low pressure heaters 23) are connected to high pressure deaerators 24 connected to them feed pumps 25, which are connected through high pressure heaters 26 to boilers 14.

 The peak polyblock contains a three-stage chemical water treatment from two desalination stages 27 for heating power units, and the third stage 28 for supercritical pressure units (pumps are not indicated for simplification).

 A pump 29 is connected to the chemical water treatment and is connected to the drainage circulating pipes of the cooling water of the condensers 21. The output after the second stage of chemical desalination of water 27 is connected via valves 30 to low pressure deaerators with make-up pumps 31 connected to high pressure deaerators 24. The third stage of chemical desalination of water 28 through valves 32 is in communication with capacitors 5.

 In addition, the boilers 14 of the heating power units have a steam line 33 connecting them for a fresh steam, to which, along with the turbine units 15, are connected quick-acting reduction and cooling units (BROUs) 34, the outlet of which is connected to industrial bleeds 16 and to the BROU 35 low pressure connected to top network heaters 19.

 To create a peak polyblock, there is a section 36 of the transverse connection along the primary fresh pair of boilers with valves equipped with bypasses 37 and a valve 38 connected to subcritical pressure pipe 39 with a valve 40 also equipped with bypasses. At the junction of sections 36 and 39, a quick-acting automatic protective shut-off valve 41 is installed. For a specific design according to the technical requirements, two valves 41 can be installed in series.

 The operation of a thermal power plant - peak polyblock is as follows.

 In the period of a decrease in power consumption, supercritical pressure condensing power units are unloaded by reducing the combustion of fuel and steam output of boilers 1 to the minimum power of turbine units 4, corresponding to the technically possible minimum of boilers 1. (For example, for domestic gas-oil power units with a ccd of up to 30-40% of their capacity ) Simultaneously with unloading of power units the pressure of fresh steam in the primary path of the boilers also decreases 1. Heating cogeneration units 15 are also unloaded to a possible minimum, determined by the heat load of consumers of heat energy in steam and hot water, connected to controlled taps 16 and 18 (Thermal schedule mode with a minimum steam pass through the last stage of turbine units 15 into condensers 21). After unloading the turbine units 4 to the minimum possible capacity of the boilers 1, the reduced steam pressure in the primary path of fresh steam is equalized with the steam pressure of the boilers 14 of the heating units. In boilers 1 and 14, the temperature of fresh steam is also mutually aligned. Upon reaching equalization of the fresh steam parameters of boilers 1 and 14 by slightly opening the bypasses on the valves 37 and 40, the sections of the steam pipelines 36 and 39 are heated with the valves 38 closed and the high-speed automatic safety shut-off valve 41 with the steam pressure rising in section 39 to the rated level of the boilers 14. After the heating is completed sections of steam pipelines 36 and 39 open a high-speed automatic protective stop valve 41 with the interaction of automatic operation for its instantaneous, if necessary, closure, open the rear buckle 38 and latches 37 and 40 are closed with bypasses. By reducing the steam capacity of the boilers 14, they begin to transfer fresh steam from the primary path of the boilers 1 to the steam line 33 of the fresh steam of the boilers 14. The electric power of the condensing turbine units 4 is reduced by the amount of transmitted steam, with the transfer of the turbo drives of the feed pumps 12 to the upstream regenerative selection of steam of the turbine units 4. After the third stage chemical water purification valves 32 automatically supply an additional quantity of chemically demineralized water, which is mixed with cond the natom of exhaust steam by the condensate pump of the first stage 6 is pumped sequentially into the mixing type low pressure heaters 7, of which the second stage 9 condensate pump through the low pressure heaters enters the deaerators 10. From the deaerators 10 by the feed turbine pumps 12, the mixture of condensate of the turbine units 4 and chemically desalinated water through the heaters 13 high pressure is supplied to the boilers 1. At the same time, due to the supply of an additional amount to the condensation of chemically demineralized water, they also additionally I selections regenerative condensing turbine units 4, thus achieving also additional turbine discharge and increasing their efficiency (by reducing the vapor flow rate in the capacitors 5). The transfer of fresh steam stops after reaching the technical minimum of the steam capacity of boilers 14. In this mode, the peak polyblock due to the transfer of fresh steam reduces the amount of steam transfer, the supply of chemically desalted water after the second stage 27 of chemical water treatment to low pressure deaerators with transfer pumps 31, replenishing the water with irrevocable steam leave industrial consumer 16.

 From the unloaded heating cogeneration turbines 15 without changing the magnitude of their controlled withdrawals 16 and 18, steam is released to the industrial consumer 17, and the hot water heated in the network heaters 19 is pumped by pumps 20 for heating and hot water supply. The remainder of the spent steam enters the condensers 21, of which the condensate pumps 22 through the low pressure heaters 23, the condensate enters the deaerators 24 of high pressure and mixed with chemically desalinated water coming into it from the deaerators 31, the feed pumps 25 are fed through the high pressure heaters 26 to the boilers 14.

 In case of violation of the operation mode of the peak power unit, for example, disconnecting the turbine units 4 from the effects of automatically disconnected high-voltage power transmission lines, from increasing the fresh steam pressure in the pipeline 36 and, accordingly, to the set allowable level in the pipeline 39 from the electrical contact pressure gauge 43, an impulse is received for instantaneous actuation of the actuator 42 to close the high-speed automatic protective shut-off valve 41. In this case, before loading the boilers 14 from the system, of automatic control of the peak polyblock, the heating cogeneration units 15 are unloaded with the cover of their control valves and the BROU 34 and 35 are automatically switched on, providing without any change the heat supply to consumers, with automatic shutdown of industrial 16 and heating 18 steam take-offs. At the same time, the regime thermal automation loads the boilers 14 to the required level for the normal operation of the turbines 15 with the inclusion of their selection 16 and 18 steam and turning off the BROW 34 and 35.

 During the transition of condensing power units Peak polyblock is divided into rated power and parameters of fresh steam by disabling cross-link 36 and 39 by closing the valves 37, 38 and 40 and valve 41 with the conclusion of the operation of their control systems.

 The magnitude of additional unloading of condensing power units is possible up to a level corresponding to the possibility of fresh steam extraction without reducing the reliability of the intermediate boiler superheater 1 to 20% of the nominal capacity of their boilers in the entire load range, which specifically for 300 MW power units corresponds to an additional unloading of 40-30% approximately up to 15-20% of their rated power. (Since this regimen has not yet been studied, an estimate of the decrease is given as an indication).

 Thus, the installation of supercritical and subcritical vapor pressures (cross-connection between them) of a high-speed automatic protective shut-off valve 41 at the junction of sections of steam pipelines of steam boilers makes it possible to create a reliable and economical multiblock with boilers and turbines of significantly different fresh steam parameters with guaranteed reliability, and to relieve deeply condensing power units without their shutdowns due to, as indicated above, the transfer of up to 20% of the steam from the primary path of their boilers with a reverse transition to the rated parameters and power after disconnecting the cross-connection for fresh steam.

Claims (1)

 THERMAL ELECTRIC STATION, containing a peak polyblock, consisting of at least two steam turbine power units with a cross-link pipeline for boilers for fresh steam, characterized in that, in order to increase efficiency and maneuverability, it is equipped with a quick-acting automatic shut-off valve with an actuator for instant shut-off a signal on exceeding the pressure of the permissible value and an electric contact pressure gauge supplying a signal to the actuator, at least one of the power units made in the form of a condensation power unit with supercritical parameters of fresh steam, and the other in the form of a cogeneration power unit with subcritical parameters of fresh steam, while the valve and pressure gauge are installed on the cross-connection pipeline, and the pressure gauge is in the area related to the heat-generating power unit with subcritical parameters of fresh steam .

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