SU847752A1 - Steam power plant - Google Patents

Abstract

PAROSILOVAY INSTALLATION with dvuhbaypasnoy starting circuit comprising a boiler reported conduits fresh steam, cold and hot reheat cylinders turbine having selection lines steam stop valve, which are connected to the regenerative podsUgrevateli, and high-speed-reducing cooling unit with setpoint pressure located on waste pipelines connecting fresh steam and cold reheat pipes, hot reheat pipes and a condenser, I’m saying so that, in order to increase reliability and efficiency, the steam extraction line of at least one regenerative heater is additionally connected to the hot reheat pipeline, and the fast-acting reduction-cooling unit connected to the S hot reheat pipelines is equipped with a nominal pressure in the reheat pipelines.

Description

The invention relates to a power system and can be used in the operation of both existing and newly designed power units.

Known steam power installation with double bypass starting circuit, contents. Lubricating boiler connected with fresh steam, cold and hot reheat pipelines with turbine cylinders having steam extraction pipes with valves, to which regenerative heaters are connected, and high-speed pressure reducing cooling installations installed on discharge pipelines connecting pipelines fresh steam and cold reheat, piping hot industrial overheating and condenser.

about 1

The disadvantage of such an installation is the lack of reliability and eco-nominality when taking a part of the steam to the regenerative heater from the cold reheat pipes. Dp of reliable cooling of the secondary steam superheater of the boiler, operating in the unit with a double-bypass start-up circuit, requires a significant consumption of steam through the secondary superheater.

The purpose of the present invention is to increase the reliability and efficiency of the installation in start-up modes.

This goal is achieved by the fact that the steam extraction pipe of at least one regenerative preheater is additionally connected to the hot reheat pipeline, and the quick-acting reduction cooling unit connected ™ to the hot reheat pipelines, is provided with a setpoint for the nominal pressure in the reheat pipe;

The invention is illustrated in the drawing, which is a schematic diagram of the installation.

The steam-powered unit contains a boiler 1, connected by pipelines 2-4 of fresh steam, tank and hot reheat of reheater 5, with cylinders 6-8 of high, medium and low pressure (ATC, high-pressure cylinder and low-pressure cylinder) of the turbine, which have pipelines 9 of extraction of steam with stop valves 10, to which regenerative heaters 11 are connected. On discharge pipelines 12 and 13, connecting 1 pipelines 2,3 of fresh steam and cold reheat, pipelines 4 of hot lampereheating and condenser 14 contain fast-acting reduction-cooler nye Fitting 15 and 16 (BROU), and the latter is provided with a set point I7 at nominal pressure in pipes 3 and 4 at the reheat boiler 1 on technical minimum load. The steam extraction pipe 9 of at least one regenerative preheater 11 is additionally connected to the hot reheat pipeline 4 by means of a pipe 18, on which the valves 1 9 are installed.

The start of the installation is carried out as follows.

When the shutoff valve 10 is closed on the steam extraction pipe 9 before opening the BROU 15 and 16, the stop valve 19 is opened on the additional pipe 18. Fresh steam from the boiler 1 flows through the BROU 15 into the cold reheat pipes 3, from where it comes to cooling the reheat 5. From the reheat 5, the main part of this steam through pipelines 4 of hot reheat and additional pipes 18 enters the regenerative heater 11 with a nominal pressure, which is maintained by the setpoint 1 7.

Excess steam that did not go to the regenerative preheater 11 is dumped through BROU 16 to the condenser.

14; At this start-up and loading of the pipe unit up to a load of 30% of the nominal and ensuring reliable operation of the boiler 1 (at the same time, the boiler operates at the load of technical

minimum), carried out according to a well-known method of starting turbines installed in power units with double-bypass start-up circuits, by supplying the working steam only B; DCP 7 and

LPC 8 turbines using pressure-free HPV 6 with overpressure in HPC 6 and countercurrent Bbw cooling of its flow-through part. Regenerative heater 11 is switched to a conventional scheme of steam supply from steam extraction pipelines 9 or from cold reheat pipelines 3 at the same time as the high-pressure cylinder 6 is switched to normal operation with the BROU fully closed. 5 by opening the valves 10 on the steam extraction pipe 9 and closing the valves 19 on the additional pipe 18.

Thus, during start-up, the pressure in the reheat system is maintained close to nominal throughout the operation of BROU 15. This uses regenerative preheaters 11 (in this case, regenerative high-pressure preheaters) and ensures that they operate at nominal mode with a cover of a given value of BROU 16 charter-.

which 17.

Use in the regenerative heater of a part of the steam heat from the hot reheat heating pipelines,

previously discharged into the condenser,

for heating the feed water without reducing the steam flow rate through the reheater, ensures reliable operation of the boiler when starting up from any thermal condition of the power unit for the period of the boiler operation in the mode of minimum technical load. This increases the reliability of the working blades of the last stages due to the possible

reducing the erosion of the output edges from the vapor discharged into the condenser. : Heated feedwater to the maximum possible temperature during this start-up period due to disposal 8477526 .ze: ™ - -

Claims (1)

STEAM POWER PLANT with a double-bypass starting circuit, containing a boiler connected by pipelines of fresh steam, cold and hot superheat with turbine cylinders having steam extraction pipelines with shut-off valves, to which