SU1044068A1 - Method of relieving heat producing power plant with intermediate steam overheating - Google Patents

Abstract

METHOD OF UNLOADING THERMAL ENERGY INSTALLATION WITH INTERMEDIATE OVERHEATING STEAM by converting the high-pressure cylinder to the steam-free mode and changing the electrical power of the installation by adjusting the high-pressure and high-pressure cylinder valves and heating the network water with steam from turbine samplings. so that, in order to increase the unloading depth while maintaining the heat supply, the transfer of the secondary pressure cylinder to the non-steam mode is performed by additional circling it in a couple by the direction of the latter to the intermediate superheater, after which the steam is divided into two streams, one of which is fed into the cylinder medium pressure, and the other for additional heating of the network water. 4 4 O 9d 00

Description

The invention relates to the field of power engineering and can be used at heat and power plants (CHP equipped with heat and power units with intermediate superheating of steam. A known method of unloading a heat and power plant with preservation in the operation of the boiler and transfer of steam from it to the turbine and heaters of network water through a reduction-cooling CJ device. The disadvantage of this method is that it is applicable only to boilers without an intermediate superheater (PP). In the presence of TS, when the flow Steam through the main and intercooled steam superheaters must be balanced at any load, its application is associated with great difficulties, since reducing steam consumption through the PP at loads close to nominal can lead to overloading of its coils. installations with intermediate superheating of steam by switching the high-pressure cylinder to the steam-free mode and changing the electrical power of the installation by adjusting the high-pressure valves of the cylinders ednego pressure and heating wa network water vapor from binyGgZ round selections, disadvantages of this method are insufficient discharge depth and complexity of the thermal setting circuit for its realizagschi. The aim of the invention is to increase the% discharge depth while maintaining the heat supply. This goal is achieved by the method of unloading a heat and power plant with intermediate superheating of steam by transferring the high pressure cylinder to the steam-free mode and changing the electrical power of the installation by adjusting the high and medium pressure cylinder valves and heating the supply water with steam from turbine blends, converting the high pressure cylinder to the steam-free mode is performed by additional circling it in a couple by the direction of the latter in the "daily superheater", after which the steam section dissolved into two streams, one of which is fed to the medium pressure cylinder, and the other - an additional heating system water. The drawing shows a schematic diagram of an installation for implementing this method. The heat and power installation includes a boiler 1, communicated through control valves 2 to a high pressure cylinder 3 (HPC), which is connected to an intermediate pressure cylinder 6 through a superheater PP 4 and control valves 5. and the latter is connected to the low pressure cylinder 7 (LPD), to the pipelines 8 for the extraction of steam from which the heater 9 of the supply water is connected. An additional heater 1 of network water is connected to the JO water path, connected via a reduction-cooling unit (DOW) 12 to the pipeline 13 after PP 4 along the steam path. Pipelines 14, 15 of fresh steam and cold reheat are connected to each other through DOC 16, and a non-return valve 1 / is installed on the pipe 15 of the cold reheat, and the bypass valve 19 is installed on the bypass pipeline 18, the HPC 3 has drainage pipes 20. The heat and power installation is as follows In the normal operating mode, with the full electric power of the power unit of the power unit, fresh steam from boiler 1 is fed through control valves 2 to the turbine HPC 3, after which PP is directed to the boiler 4 through Tk regulir5 valve guides 6 IPC turbine. Selective steam from the low pressure cylinder 7 is directed to the main preheater 9 of the supply water, where it heats the supply water. The unloading of the plant by electrical power is performed as follows. Fresh steam from boiler 1 through DOC 16 is supplied to PC 4 of boiler 1, the turbine cylinder 3 min, which is put into non-steam mode. This mode is provided by closing the control valves 2 of the high pressure cylinder and check valve 17, opening the bypass valve 19 and the drainage pipes 20 of the high pressure cylinder 3. After P 4, the steam splits into two streams: one is fed through the control valves 6 of the turbine, the other

through RDF 12 - to the additional heater 11 of the supply water, in which the reduction of the thermal, main heater 9 is compensated. Further unloading the unit by electric power, its regulation and maintaining the preset level of heat supply are achieved by redistributing the steam flow in the CHSD 6 to DOC 12, Adjusting the electric power of the unit this translates into control valves 5 DSC.

Thus, transferring the DSC by circulating it in pairs and distributing the steam flow after D to DSC and additional heating of the supply water allows for deep unloading of the installation according to the electrical load while ensuring reliable operation of the PCB and preserving the Heat Release to the consumer.

Claims (1)

METHOD FOR UNLOADING A HEATING POWER INSTALLATION WITH INTERMEDIATE STEAM HEATING by transferring the high-pressure cylinder to steam-free mode and changing the electric power of the installation by adjusting the valves of high and medium pressure cylinders and heating the mains water with steam from the turbine take-offs, from the heating circuit. I mean that, in order to increase the discharge depth while maintaining heat release, the high-pressure cylinder is switched to steam-free mode by additionally circling it in pairs by directing the latter to an intermediate superheater, after which the steam is divided into two streams, one of which is supplied · In a medium-pressure cylinder, and the other - for additional heating of network water. SU „„ 1044068>