SU1650925A1 - Steam-turbine plant - Google Patents

Abstract

BACKGROUND OF THE INVENTION The invention relates to power engineering and can be used on condensation and cogeneration steam turbines. The invention is aimed at improving the economy and reliability of a steam turbine plant, which is achieved by performing expanders and a deaeration condensate collector in the form of a single apparatus 2 with a water inlet plug connected to the bottom of the condenser 1, and a steam discharge pipe 4 at the steam outlet communicated with the vapor volume of the condenser 1. Such an arrangement and placement of the apparatus 2 allows, in all modes of operation of the installation, to produce deep deaeration of the condensate at full utilization of the heat of the drains and arovozdushnoy mixtures which through manifolds 26, 27, 28 are applied to the apparatus 2. 1 yl. (L

Description

The invention relates to energy and can be used in condensation. and cogeneration steam turbine plant thermal electron _5-empirical stations.

The purpose of the invention is to increase the efficiency and reliability of a steam turbine installation.

The drawing shows a basic scheme of steam turbine installation.

. The steam turbine installation comprises a steam turbine (not shown), a condenser 1, a condensate deaeration apparatus 2 with a water trap 3 at the inlet 15 through water, connected to the lower part of the condenser 1, a steam exhaust pipe 4 and a steam-air mixture suction pipe 5 at the steam outlet with installed on respectively, safety valve 6 and valve 7, as well as the condensate drain pipe 8 connected to the suction port of the condensate pump 9, installed on the pipeline 25 de 10 regenerative heating of the feeder water heater 11, process water, a control valve 13 is installed on the inlet pipe 12, coolers 14 for steam-jet ejectors 30 (not shown), regenerative heaters 15 with pipelines 16 (conventionally combined in the drawing) of the vapor-air mixture suction connected to apparatus 2, pipe - ^ 5 of water 17 of the recirculation condensate with the control valve 18 installed on it, connected to the apparatus 2, and by means of the jumper 19 with the control valve • installed on it up to 20 - to the chemical supply line 21 salt-free water with a control valve 22 on it, communicated through a water distribution device 23 with a condenser 1, as well as a steam supply pipe 2.4 connected to the apparatus 2 from an external source with a valve 25 installed on it and collectors 26 - 28 of high drainage, jq medium and low pressure, respectively.

Steam turbine works as follows.

Before starting the turbine, the apparatus 2 is filled with condensate and chemically demineralized water from the condenser 1, the control valve 18 on the recycle condensate pipe 17 is opened, the condensate pump 9 is turned on, the valve 2 is opened, piping 24 is supplied to the apparatus 2 from an external source 2 and water is pumped in a closed contour. In the process of pumping, condensate and chemically desalinated water are heated and deaerated. When using steam jet ejectors in the installation, the pumped water can be cooled in front of the coolers 14 to the required temperature by turning on the heater 11 by opening the control valve 13. The steam-air mixture from the apparatus 2 is sucked out to the condenser 1 through the pipeline 5 through the open valve 7, while in the condenser 1 a vacuum should be provided.

When starting the turbine through the collectors 26 - 28 and pipelines 16 and 17, the turbine drains, as well as the steam-air mixture from the heaters 15 and the recirculation condensate, enter the apparatus 2. Additional chemically desalted iodine with the open control valve 22 is supplied through the pipe 21 through the 23rd water distribution device and then through the hydraulic lock 3 to the apparatus | 2. In this mode, the heat recovery of the drains and the air-vapor mixture and the reliability of the blades of the last stages of the turbine are ensured.

When the turbine is operating, the exhaust steam enters the condenser 1, where it is condensed and mixed with additional chemically desalinated water supplied to the condenser 1 through a pipe 21 through a control valve 22 and a water distribution device 23. To improve the deaeration of chemically desalinated water, the latter can be heated by supplying condensate to it recirculation from the pipeline 17 through the jumper 19 and the control valve 20. Condensate through the hydraulic lock 3 enters the apparatus 2, which also receives a permanent drainage through the collector 26 and the steam-air mixture from the heaters 15 through the pipe 16, and for cogeneration turbines when working on the heat schedule - recirculation condensate through the pipe 17. The condensate entering the apparatus 2 is heated, deaerated and pump 9 is fed into the pipeline 10 of regenerative heating of feed water, This 1650925 is carried out the suction of the steam-air mixture from the apparatus 2 to the condenser 1 or to the second stage of the steam-jet ejector (not shown) through the pipeline 5 through the open valve 7. Safety valve 6 us triplets for opening when the pressure in the apparatus 2 is exceeded in comparison with the calculated value, due to which the excess steam is transferred to the condenser! In this case, the hydraulic lock 3 prevents the breakthrough of steam from the apparatus 2 into the lower part of the condenser 1 and overflow of the latter with water. In the case of using steam jet ejectors in the installation, to reduce the temperature of the condensate supplied to the coolers 14, the heater 11 is turned on by opening the control valve 13 to a position that provides the required condensate temperature.

The steam turbine installation provides deep deaeration of the condensate of the turbine and additional chemically desalinated water at all operating modes of the installation with the complete utilization of the heat of the drains and the air-vapor mixture, the erosion safety of the blades of the last stages of the turbine at start-up modes, and for heating turbines, also at modes with small passes of steam into the condenser 1.

Claims (2)

Claim ! A steam turbine installation containing a steam turbine, a condenser combined in its lower part with a deaeration condensate collector with a condensate 40 pump connected to the last one, regenerative heaters installed on the regenerative heating feed pipe, steam and air mixture suction pipelines connected to the steam volume of the condenser, high drainage pipelines medium and low pressure, combined by appropriate manifolds connected to expanders communicated in pairs with a steam volume of the condenser, and with water with a deaeration condensate collector, a process water heater, characterized in that, in order to increase the efficiency and reliability of the installation, the expanders and the deaeration condensate collector are made in the form of a single apparatus201 with a water seal at the inlet and a steam outlet pipe with a safety valve installed on it at the steam outlet, and a water trap is connected to the lower part of the condenser 25, a steam outlet pipe is connected to the vapor volume of the condenser, and pipes steam suction mixture and high and medium pressure drain manifolds - to the apparatus30, whose condensate outlet is connected to the suction port of the condensate pump. . 2. Installation pop. 1, the fact is that the process water heater in the heating medium is installed on the regenerative feed water heating pipeline and is connected by the inlet to the discharge pipe of the condensate pump.