SU857519A1 - Steam turbine plant - Google Patents

Description

(54) STEAM TURBINE INSTALLATION

I

The invention relates to a power system, and can be used in thermal circuits of heat and steam heating turbine plants of a combined heat and power plant.

A steam turbine installation is known, comprising a steam turbine, a condenser with a condensate trap, a suction pipe connected to the condensate pump, connected to a last suction pipe, a drain pump whose discharge pipe communicates with the condensate path of the regeneration system between regenerative heaters, and ejector coolers connected to the pressure pipe between the regenerative heaters and the ejector coolers connected to the pressure pipe of the regeneration heaters between regenerative heaters and the ejector coolers connected to the pressure pipe of the regeneration heaters between regenerative heaters and the ejector coolers connected to the pressure pipe of the regeneration heaters between the regenerative heaters and the ejector coolers connected to the pressure pipe of the regeneration heaters between regenerative heaters and ejector coolers are connected to the pressure pipe of the regeneration heaters between regenerative heaters. pump 1.

The disadvantage of this installation is the need to use the condensation mode of large condensate pumps when operating in the heat generation power plant, which is decisive for the thermal power plant, when approximately 10% of the calculated condensate flow reaches the condenser. In this case, there is a decrease in the economics of the turbine installation, which is associated with the need to ensure the efficiency of the pump for switching on the condensate recirculation line to the condenser and a decrease in reliability due to

With an increase in the pressure of condensate pumps when it is operated with reduced performance.

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

This goal is achieved by the fact that the pressure pipe of the drain pump and the pressure pipe of the condensate pump to the ejector coolers are connected to each other by an additional pipe provided with stop valves.

The drawing shows a schematic diagram of the installation.

The steam turbine plant comprises a steam turbine 1, a condenser 2 with condensates with a collector 3 communicated with a condensate pump 4 by a suction pipe 5 to which the pipe 6 is connected to the suction pipe 7 of the drain pump 8, the pressure pipe 9 of which

20 communicates with the condensate path 10 of the regeneration system between regenerative heaters 11. The discharge pipe 9 of the drain pump 8 and the discharge pipe 12 of the condensate pump 4 to the ejector coolers 13 are connected to each other by a secondary pipe 14 equipped with a shut-off valve 15. The condenser 2 is connected to the condensate path 10 after the ejector coolers 13, the recirculation pipe 16 with the valve 17. The pipes 6, 7 and 9 and the path 10 are equipped with shut-off valves 18 - 20 and control valves 21 and 22. On the supply pipe 23 ara for regenerative preheater 11 is installed the valve 24.

Steam turbine installation works as follows.

In the heat generation mode of operation, characterized by the minimum steam flow to condenser 2 and zero steam flow to the regenerative heater 11, the condensate from condenser 2 is removed by a drain pump 8. To implement this mode, the condensate pump 4 is turned off, the valve 24 is closed on the steam supply line 23 to regenerative heater 11 and shut-off valves 19 and 20. Condensate from the condensate collector 3 through pipe 6 enters the suction pipe 7 of the drain pump 8 and then through pipe 14 to the bottom The piping 12 in front of the ejector coolers 13. The leveling of the condensate in the condensate collector 3 is maintained by means of valves 22 and 17, regulating and recirculating.

When steam consumption to condenser 2 increases and the level of condensate associated with this increase in condensate collector 3 is activated, the condensate pump 4 is automatically turned on, shut-off valves 15 and 18 are closed on pipe 6 and 14, and shut-off valves 24 and 19 are opened. In this case, the condensate drain from the regenerative heater 11

This is accomplished by operating the drain pump 8 through a control valve 21 operating on the level of condensate in the heater 11, and the pipe 9 to the condensate path 10 after the heater 11.

The use of drain pumps reduces or eliminates the recirculation of condensate to the condenser, which is accompanied by a decrease in power consumption for own needs and an increase in reliability due to the exception of the operation of condensate pumps with reduced capacity.

Claims (1)

1. Tub Nsky l. I., Frenkel L. D. High pressure steam turbines LMZ im. Stalin. Design and maintenance. M.-L., Gosenergoizdat, 1953, FIG. 127.