RU2166642C1 - Thermal power station operating process - Google Patents

Abstract

FIELD: thermal engineering. SUBSTANCE: operating process proposed for thermal power station includes sequential heating of full-flow turbine condensate in low-pressure regenerative heaters, deaeration of makeup water in vacuum deaerator wherein heating agent is fed, and mixing of deaerated makeup water with full-flow turbine condensate upstream of one of regenerative heaters. Used as heating agent for vacuum deaerator is full-flow turbine condensate extracted downstream of the regenerative heater at whose inlet deaerated makeup water is mixed up with full-flow turbine condensate. EFFECT: enhanced economic efficiency and reliability of power station. 1 dwg

Description

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

 Known analogues are the methods of operating a thermal power plant, in which the main condensate of a turbine is successively heated in regenerative low-pressure heaters, the additional feed water is deaerated in a vacuum deaerator, into which a heating agent is supplied, the deaerated additional feed water is mixed with the main condensate of the turbine in front of one of the regenerative heaters , the heating agent is fed to the vacuum deaerator through a steam turbine production sampling pipeline and a cooled production pipeline condensate (see Oliker I.I., Permyakov V.A. Thermal deaeration of water at thermal power plants. L .: Energia, 1971, p. 130, Fig. 3-7). This analogue is adopted as a prototype.

The disadvantages of analogues and prototype are reduced efficiency and reliability of thermal power plants. The use of production condensate as a heating agent, cooled to a temperature of 55-60 ^o C, does not allow for efficient vacuum deaeration of the additional feed water due to the low temperature of the production condensate, which reduces the reliability of the thermal power plant. The use for this purpose of production steam with a pressure of 6 kgf / cm ² or more reduces the efficiency of the thermal power plant due to the fact that the heat received by the additional feed water from high-potential steam displaces the heat of low-potential regenerative turbine extraction in regenerative heaters.

 The technical result achieved by the present invention is to increase the efficiency and reliability of a thermal power plant.

 To achieve this result, a method is proposed for operating a thermal power plant, in which the main condensate of a turbine is successively heated in regenerative low-pressure heaters, the additional feed water is deaerated in a vacuum deaerator, into which a heating agent is supplied, the deaerated additional feed water is mixed with the main condensate of the turbine in front of one of regenerative heaters.

 The peculiarity lies in the fact that the main condensate of the turbine taken after the regenerative heater is used as the heating agent in the vacuum deaerator, before which the deaerated additional feed water is mixed with the main condensate of the turbine.

 A new way of operating a thermal power plant allows to increase the reliability and efficiency of a thermal power plant by using a heating agent in a vacuum deaerator with parameters sufficient for effective deaeration and the use of low-potential regenerative low-pressure samples for heating a heating agent.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources, and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the set of essential features of the analogue, allowed to identify the set of essential in relation to the technical result of the distinguishing features set forth in the claims.

 Therefore, the claimed invention meets the condition of "novelty."

 To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed method from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention on the achievement of the technical result is not revealed from the prior art determined by the applicant. In particular, the claimed invention does not provide for the addition of a known agent to any known part attached to it according to known rules to achieve a technical result in respect of which the effect of such additions is established.

 Therefore, the claimed invention meets the condition of "inventive step".

 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 containing a steam turbine 1 with regenerative low-pressure heaters 2-5 included in the path 6 of the main condensate of the turbine, a vacuum deaerator of additional feed water 7 with a heating agent pipe 8 connected to the path 6 of the main condensate of the turbine after regenerative heater 3, in front of which a pipeline of deaerated additional feedwater 9 is connected to the path of the main condensate of the turbine.

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

The steam spent in the steam turbine is condensed in a condenser, after which the main condensate of the turbine is successively heated in regenerative low-pressure heaters 2-5. Feed water leaks from the steam-water cycle of the thermal power plant are compensated by additional feed water, which is deaerated in a vacuum deaerator 7 and at a temperature of 60 ^o C is directed to the path of the main condensate of the turbine 6 in front of the regenerative heater 3. A heating agent is supplied to the vacuum deaerator 7 through line 8 - the main condensate of a turbine with a temperature of 95 ^o C, taken after the regenerative heater 3, before which deaerated additional feed water is mixed with the main condensate of the turbine, which allows This ensures that the temperature difference between the heating agent and deaerated supplementary feed water is sufficient for effective deaeration. Next, the main condensate is deaerated with additional feed water in a high pressure deaerator and then fed to the high pressure heaters and steam boiler by the feed pump. Thus, the new method allows for efficient vacuum deaeration of additional feed water using low-potential regenerative steam extraction as a heating agent, i.e. to increase the reliability and efficiency of the thermal power plant.

The above information indicates the following conditions are met when using the claimed method of operation of a thermal power plant:
- the declared thermal power plant is intended for use in industry in the field of heat power;
- for the claimed thermal power plant in the form described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;
- thermal power plant embodying the claimed invention, when implemented, is able to achieve the desired technical result.

 Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

 The method of operation of a thermal power plant, in which the main condensate of the turbine is successively heated in low pressure regenerative heaters, the additional feed water is deaerated in a vacuum deaerator, into which a heating agent is supplied, the deaerated additional feed water is mixed with the main condensate of the turbine in front of one of the regenerative heaters, characterized in that as the heating agent in the vacuum deaerator, the main turbine condensate selected after regenerative dogrevatelya before which the additive is mixed deaerated feedwater to the main turbine condensate.