SU1495448A1 - Steam turbine plant - Google Patents

Abstract

The invention relates to a power system and can be used in designed and operating steam turbine plants of a heat and power plant. When switching to the cogeneration mode, the valves 26, 27 are opened and the valve 28 is closed, after which the valve 22 is opened and 24 are closed, thereby connecting the desuperheater 25 to the heating water path. The transition of the installation to self-compaction is carried out by covering the regulator 12, increasing the pressure in the collector 13 to a value greater than that in the collector 6, and then closing the regulator 17, which makes it possible to increase the cost-effectiveness and reliability of the steam-turbine power plants at various power operation modes. 1 il.

Description

J6

cl

coke

00

55

The invention relates to a power system and can be used in designed and operating steam turbine plants of a heat and power plant.

The purpose of the invention is to increase reliability and efficiency.

The drawing shows a diagram of the steam turbine installation.

The steam turbine plant contains high-pressure cylinders 1 (HPC) and low pressure 2 (LPCs) with steam pipelines 3 for steam extraction for regeneration from LPC 2, chambers 4 for supplying steam to end seals (CU) connected by pipelines 5 to the inlet manifold 6, and chambers 7 and 8 with connected to them lines 9 and 10 of the vapor-air mixture and steam, respectively, a steam pressure regulator 12 is installed on the steam removal line 1I in the steam discharge collector 13 from the seals, equipped with a bypass line 14 with a valve 15. A pipeline is connected to the collector 6 16 with installed on it, the steam regulator 17 from an external source (not shown). A regulator 12 is installed with a desuperheater 18 of a mixing type, equipped with spraying devices (not shown) and a supply line 19 with a valve 20 and a condensate filter 21 from the recovery system of the turbine unit. After the regulator 12 to the line 11 before the valve 22 installed on it, the pipeline 23 is connected with the valve 24 suction of steam into the steam pipe 3 of the regeneration circuit. The desuperheater 25, the steam is connected through the valves 26-28 in the path 29 of heating network water, for example, before the first network heater (not shown). The steam supply pipe 5 to the chambers 4 of the front end seals is equipped with a check valve 30, between it and the camera 4 a fresh steam supply pipe 31 with a valve 32 is connected to the pipe 5. The condenser pump 34, the condenser pump 35, the main condensate path 36 including the ejector cooler 37, the gland heater 38, the recirculation valve 39 and the valve 40.

Steam turbine installation works as follows.

In the condensation mode, steam from the collector 13 through line 11 through the desuperheater 18, the regulator 12 and the pipe 23 is fed to the steam recovery pipe 3 for regeneration, the valve 22 is closed, the valve 24 is open, and the condensate from the condenser 34 is fed to the input of the cooler 35 37 ejectors, etc. The regulator -12 maintains the required pressure in the manifold 13. Condensate is fed to the desuperheater 18 through line 19 with filter 21 and open valve 20.

When switching to the cogeneration mode of operation of the installation, the valves 26 and 27 are opened and the valve 28 is closed, after which the valve 22 is opened and 24 closed, thereby connecting the desuperheater 25 to the heating water path 29. Then the valve 40 is opened and part of the condensate is circulated back to the condenser 34 via the recirculation circuit 33. The desuperheater is shut off due to the cooling medium by closing the valve 20. The transition of the installation to self-sealing is performed by covering the regulator 12, increasing the pressure in the collector 13 to a value greater than than in the collector 6, the regulator 17 is closed, and a pair of chambers 4 posterior end seals and VD and front low-pressure cylinders are fed through pipe 5 to the collector 6, and from there into the chambers 4 rear end seals LPCs. The regulator 17 is switched to the stereo mode in order to add steam from an external source there when the pressure in the manifold 6 decreases.

25

Claims (4)

1. A steam turbine plant containing cylinders with steam pipes for steam regeneration and network heaters included in the network water path, 0 end seals, the supply chambers of which are connected by supply lines to the sealing steam supply manifold, and the discharge chambers are connected to the discharge collector with a pipeline on which the radiator is installed pressure regulator and a paracooler with the coolant supply pipelines steam for seals and steam suction from seals to a steam extraction line, check valves and a source of superheated water, which, in order to increase efficiency and reliability, the installation is equipped with additional aroohladite.tem with a cooling medium supply pipe mounted on the conduit in front of a pressure regulator and a suction conduit pod5 key to the pipeline between the pressure regulator and desuperheater, the latter being included in the path network water. 2. Installation under item 1, characterized in that it is equipped with an additional check valve installed on the pipeline 0 filing. 3. Installation on PP. I and 2, characterized in that the fresh steam supply line to the seals is connected to the supply line between the additional check valve and the supply chamber.  4. Installation according to claim 1, characterized in that the coolant supply pipe is in communication with a source of superheated water.