RU2259483C1 - Power station operation method - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: method includes heating grid water in grid heaters by steam of heating ducts of thermal turbine, feeding water of heating grid prior to feeding into reverse grid pipeline is deaerated, after that source and overheated water is fed into deaerator. Preservation of given concentration of solved carbon dioxide in deaerated feeding water is performed by consecutive adjustment of source water temperature and steam flow, while in case of increase of concentration of solved carbon dioxide relatively to given value, firstly, temperature of source water is increased, and then if necessary flow of steam is increased, and, vice versa, in case of decrease of concentration of carbon dioxide relatively to given value firstly flow of steam is decreased, and then temperature of source water is lowered.

EFFECT: higher efficiency, lower costs.

1 dwg

Description

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

Analogs are known - the methods of operation of a thermal power plant, in which the network water is heated in the network heaters with steam from the heating taps of the cogeneration turbine, the heating water is deaerated in the deaerator before being fed to the return network pipeline, for which source and superheated water is supplied to the deaerator (see a. p. 1328563, 1987, BI No. 29). This analogue is adopted as a prototype.

The disadvantage of analogues and prototype is the reduced efficiency of the method of operation of a thermal power plant due to increased energy costs for heating the source water in front of the deaerator and removing the vapor from it in the absence of carbon dioxide CO ₂ in deaerated water. Since the normative quality of water deaeration, characterized primarily by the absence of dissolved carbon dioxide in deaerated water, can be achieved with significantly lower values of the temperature of the source water and the flow rate, deaeration almost always occurs with excessive temperature of the source water and excessive flow rate of the vapor. Another disadvantage of this method is the low quality of water deaeration, leading to a decrease in the reliability of the thermal power plant.

The technical result achieved by the present invention is to increase the efficiency and economy of a thermal power plant by maintaining optimal temperature parameters of the source water in front of the deaerator and the flow rate of the vapor discharged from it.

To achieve this result, a method of operating a thermal power plant is proposed, in which the network water is heated in the network heaters with steam from the heating taps of the cogeneration turbine;

The difference of the proposed method is that maintaining a predetermined concentration of dissolved carbon dioxide CO ₂ in deaerated make-up water is carried out by sequentially controlling the temperature of the source water and the flow rate, and with increasing concentration of dissolved carbon dioxide CO ₂ relative to a given value, the temperature of the source water is first raised and then if necessary increase the vapor flow rate and, conversely, by lowering the concentration of CO ₂ relative to the first predetermined value reducing t flow vapor from the deaerator and then reducing the temperature of the source water.

A new way of operating a thermal power plant allows to increase the efficiency and profitability of a thermal power plant by ensuring the required quality of deaeration during the economical operation of the station.

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 plant explaining the method.

The station contains a cogeneration turbine 1 with steam extraction connected to a heating extraction via a heating medium and network heaters connected to a heating pipeline through a heating medium, a deaerator 2 with pipelines of evaporator 3, source water 4 and superheated water 5, connected by a return pipe of deaerated make-up water 6 network pipe 7, included in the source water pipe 4, the source water heater 8 with a heating medium pipeline. The station is equipped with a controller for the content of dissolved carbon dioxide CO ₂ 9 in the make-up water of the heating network, which is connected to a CO ₂ 10 sensor in deaerated make-up water and with regulating bodies 11 on the heating medium pipeline of the source water heater and 12 on the vapor removal pipeline.

Consider an example of the implementation of the claimed method of operation of a thermal power plant.

The network water is heated in the network heaters with steam from the heating taps of the heating turbine 1, the make-up water of the heating system is deaerated in the deaerator 2 before being fed to the return network pipe 6, for which source and superheated water is supplied to the deaerator. The source water is heated by the bottom heating steam in the heater 8. Maintaining a predetermined concentration of dissolved carbon dioxide in deaerated make-up water is carried out by sequentially controlling the temperature of the source water and the flow rate of the vapor. With an increase in the concentration of dissolved carbon dioxide relative to a predetermined value, the source water temperature is first increased within the thermal power of the source water heater, and then, if necessary, the vapor flow rate is increased and, conversely, when the carbon dioxide concentration is decreased relative to the specified value, the vapor flow rate is first reduced and then the temperature source water.

As a CO ₂ regulator, it is possible to use the commercially available microprocessor controller Remicont R-130, which allows implementing about 90 programs for controlling controlled processes, moreover, it has a number of self-tuning functions for controlled processes. The implementation with its help of the sequential control of the source water temperature and the vapor flow rate provided for by the claimed invention (the main distinguishing feature of the claimed method consists in this sequence) when using the residual carbon dioxide content as an adjustable factor is not difficult. The operations for blocking signals from the regulator to the regulatory bodies are carried out by the Remicont itself based on the sequence of operation of the regulatory bodies entered into it and the intervals for changing the temperature of the source water and the flow rate of vapor allowed for a particular power plant.

Thus, the new method allows to increase the efficiency and efficiency of the thermal power plant by providing a given concentration of dissolved CO ₂ in deaerated make-up water during economical operation of the turbine and the plant as a whole.

Claims (1)

The method of operation of a thermal power plant, in which the network water is heated in the heaters with steam from the heating taps of the cogeneration turbine, the heating water is deaerated in the deaerator before being fed to the return network pipe, for which source and superheated water is fed into it, characterized in that it maintains a given concentration dissolved carbon dioxide CO ₂ in a deaerated make-up water is carried out by a sequential control starting water temperature and vapor flow, wherein m when the concentration of dissolved carbon dioxide with respect to a predetermined value initially increase the temperature of initial water, and then, if necessary increase the vapor flow rate and, conversely, by lowering the concentration of carbon dioxide with respect to a predetermined value initially reduce vapor flow rate and then reducing the temperature of the source water.