RU2309259C2 - Thermal power station - Google Patents

Abstract

FIELD: heat power engineering; thermal power stations.

SUBSTANCE: invention is designed to reveal places of air infiltration in thermal power stations. Proposed thermal power station contains steam turbine with condenser connected through condensate pump with feed water deaerator by main condensate pipeline. On turbine main condensate pipeline after condensate pump and on condensate lines of heaters of initial additional water and lower and upper system heaters pH meters are installed.

EFFECT: increased economy and improved reliability of thermal power station.

2 cl, 1 dwg

Description

The invention relates to the field of power engineering and can be used in thermal power plants.

A well-known analogue is a thermal power station containing a steam turbine with a condenser, which is connected through a condensate pump through the main condensate pipe to the feed water deaerator (patent No. 2237813, BI 2004, No. 28). This analogue is adopted as a prototype.

The disadvantages of the analogue and the prototype is the reduced cost-effectiveness and reliability of thermal power plants due to the low accuracy of determination and the speed of detection and elimination of places of air suction. The low accuracy of determining the places of air suction is due to the fact that the main part of the oxygen manages to react with the metal of the condensate line to the installation site of the oxygen meter.

The technical result achieved by the present invention is to increase the efficiency and reliability of a thermal power plant by increasing the accuracy of determining and speed of detection and elimination of places of air suction.

To achieve this result, a thermal power plant is proposed that contains a steam turbine with a condenser, which is connected through a condensate pump via a main condensate pipe to a feed water deaerator.

The peculiarity lies in the fact that pH sensors are installed on the pipeline of the main condensate of the turbine behind the condensate pump and on the condensate lines of the heaters of the source additional water and the lower and upper network heaters. The sensors are connected to a multi-channel pH meter.

The new interconnection of elements makes it possible to increase the accuracy of detection and the speed of detection and elimination of places of air suction, which means to increase the reliability and efficiency of the thermal power plant by reducing the intensity of internal corrosion of condensate and feed water pipelines caused by air suction.

Next, we consider the information confirming the possibility of carrying out the invention with obtaining the desired technical result.

The drawing shows a schematic diagram of a thermal power station. The station contains a boiler 1, a steam turbine 2 with regenerative extraction, a condenser 3, the main condensate pipeline of the turbine 4 with a condensate pump 5 included and regenerative low-pressure heaters 6, 7, 8, 9. As a device for checking the tightness, a multi-channel pH- meter 10, one sensor 11 of which is installed on the boiler feed water pipe, for example, behind the fourth low-pressure heater 9, the second sensor 12 is installed on the main condensate pipe 4 behind the condensate pump 5 , the third sensor 13 is installed on the condensate pipe 15 behind the condensate pump 16 of the source auxiliary water heater 17, and the fourth sensor is installed on the pipeline condensate pipe 26 behind the condensate pump 25 of the lower 23 and upper 24 network water heaters. The feed water preheater 17, the water treatment plant 18, the vacuum deaerator 19 and the feed water pump 20 are included in the feed water pipe 21, which is connected to the network water pipe 22. In addition to the network pump 27, the bottom 23 also includes a bottom 23 and top 24 network heaters.

Consider an example of the implementation of the claimed solution.

The steam generated in the boiler 1 is sent to the turbine 2 and condensed in the condenser 3, the main condensate of the turbines is fed to the regenerative heaters of low pressure 6, 7, 8, 9 and then to the feed water deaerator by the condensate pump 5, after which the main condensate of the turbine is pumped through the feed pump through high pressure heaters and served in a steam boiler. A periodic tightness check is carried out by the magnitude of the pH level of the flows of the main condensate of the turbines outside the vacuum system of the turbine unit, for example behind the fourth low-pressure heater 9, behind the condensate pump 5, and by the magnitude of the pH level of the flows of condensate behind the heat exchangers included in the vacuum system of the turbine installation, for example, behind the heater source of additional water 17, for the lower 23 and upper 24 network water heaters.

The places of air suction are determined by the absolute values of the readings of the pH sensors 11, 12, 13, 14 of the multichannel pH meter 10 and by the difference of these values. Since free carbon dioxide coming in with air suction, which determines the pH level of condensate flows, interacts less actively with metal (compared to oxygen), the accuracy of determining air suction is increased.

Thus, the proposed solution allows to extend the service life of pipelines and equipment by increasing the accuracy of determination and efficiency of detection and elimination of places of air suction and reducing the intensity of internal corrosion caused by air suction, i.e. increase the reliability and efficiency of the thermal power plant.

Claims (2)

1. Thermal power station containing a steam turbine with a condenser, which is connected through the condensate pump through the main condensate pipe to the feed water deaerator, characterized in that on the main condensate pipe of the turbine behind the condensate pump and on the condensate pipelines of the source additional water heaters and the lower and upper network heaters pH sensors installed. 2. Thermal power station according to claim 1, characterized in that the sensors are connected to a multi-channel pH meter.