RU2155161C1 - Thermal water deaeration process - Google Patents

Abstract

FIELD: water treatment. SUBSTANCE: thermal water deaeration on heat and power stations and boiler plants includes desorption of water-dissolved oxygen by bringing water in deaerator into contact with heating agent simultaneously fed into deaerator. Deaerated water and deaeration vented steam are withdrawn from deaerator. Heating agent supply is controlled taking account of specified residual content of oxygen dissolved in deaerated waste water. EFFECT: increased economical efficiency of process due to optimized process conditions. 1 dwg

Description

 The invention relates to a power system and can be used in thermal power plants and boiler plants.

 Analogs are known - methods of thermal deaeration of water, by which thermal deaeration, including desorption of oxygen dissolved in water, is carried out by contacting the treated water and a heating agent in the deaerator, which are fed into the deaerator, deaerated water and the vapor formed during deaeration is removed from the deaerator, regulation the flow rate of the heating agent supplied to the deaerator is produced by the pressure in the deaerator (see the book by I.I. Oliker and V.A. Permyakov "Thermal deaeration of water in thermal power plants." - L .: Ene Riga, 1971, Fig. 1.5, 1.6 and a description of them on pp. 20-24, as well as pp. 167, p. 1). This analogue is adopted as a prototype.

The disadvantages of the analogues and the prototype are the reduced efficiency of water deaeration due to increased energy costs for supplying the heating agent to the deaerator and the removal of vapor from the deaerator, and in some cases the reduced quality of deaeration due to insufficient supply of the heating agent to the deaerator and the consumption of vapor. So, when deaerating water in a deaerator of high pressure, steam is supplied to the deaerator in an amount necessary to maintain a given pressure of 6, 7 or 8 kgf / cm ² (see ibid., P. 25). The flow rate of the vapor from the deaerator remains unchanged for all deaeration modes or it is changed in accordance with the change in the flow rate of the treated water, taking a constant value of the specific flow rate of the vapor (see ibid., P. 63).

 Since the normative quality of thermal deaeration, which is characterized primarily by the content of dissolved oxygen in deaerated water, in most cases can be achieved with significantly lower values of the flow rate of the heating agent and the flow rate of the vapor, deaeration almost always occurs with excessive consumption of the heating agent, excessive flow rate of the vapor and low efficiency. On the other hand, in a number of modes, despite maintaining a given pressure in the deaerator, the flow rate of the heating agent and the flow rate of the vapor may not be sufficient to ensure the normative quality of deaeration, which is especially typical for vacuum deaeration.

 The technical result achieved by the present invention is to increase the efficiency and quality of thermal deaeration of water by maintaining optimal flow rates of the vapor and heating agent.

 To achieve this result, a method is proposed for thermal deaeration of water, in which the desorption of oxygen dissolved in water is carried out by contacting the treated water and a heating agent in the deaerator, which are supplied to the deaerator, deaerated water and the vapor formed during deaeration is removed from the deaerator, and the flow rate of the heating agent supplied is regulated in the deaerator, produce the largest pressure in the deaerator.

 The difference of the proposed method is that the regulation of the flow rate of vapor from the deaerator is carried out according to the value of the specified residual content of dissolved oxygen in deaerated water.

 While maintaining a constant pressure in the deaerator, a change in the flow rate of the vapor directly causes a change in the flow rate of the heating agent. Therefore, the regulation of the flow rate of vapor from the deaerator according to a given value of the residual content of dissolved oxygen in deaerated water allows us to ensure the quality and efficiency of thermal deaeration by maintaining the optimal, necessary and sufficient for effective deaeration flow of the heating agent and vapor, i.e. the exclusion of deaeration regimes with excessive or insufficient costs of the heating agent and vapor.

 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. So, such a conversion cannot be attributed to the operation of regulating the flow rate of the vapor, since this operation in the claimed method is carried out in a different set of essential features of the method and according to different rules compared to known methods, which allows to achieve the desired technical result.

 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 an installation for thermal deaeration of water, explaining the method. The installation included in the heating water make-up water treatment system at a thermal power plant contains an atmospheric deaerator 1 with connected pipelines of treated water 2, a heating agent 3, deaerated water 4 and venting 5. The pressure regulator 6 in the deaerator is connected to regulatory body 7 on pipeline 3 and with a pressure sensor in the deaerator, the flow rate regulator for vapor 8 is connected to the regulatory body 9 included in the pipeline 5, and a sensor for the content of dissolved oxygen 10 in the pipeline 4.

 Consider an example of the implementation of the claimed method of thermal deaeration of water.

The desorption of oxygen dissolved in water is carried out at the contact of the treated water and the steam used as a heating agent, which are supplied to the deaerator 1 through pipelines 2 and 3, the deaerated water is discharged from the deaerator through pipeline 4, and the vapor formed during deaeration is transferred through pipeline 5. Absolute the pressure in the deaerator is maintained constant at 1.2 kgf / cm ² by the regulator 6 and 7. regulator flow control vapor from the deaerator produce a given value of the residual content of dissolved about oxygen in deaerated make-up water of 50 μg / l using the regulator 8, regulator 9 and sensor 10. When the residual oxygen content exceeds a predetermined value, the vapor flow rate is restored until it is restored; at a lower oxygen content, the vapor flow rate is reduced to reduce energy consumption by deaeration. With the regulation of the flow rate of vapor described above, the steam flow to the deaerator is simultaneously changed using the regulator 6 and the regulating body 7 to maintain a constant pressure in the deaerator: with a decrease in the flow rate of the vapor, the steam flow rate is reduced, and with an increase in the flow rate, the steam flow rate is also increased. Thus, in all modes of thermal deaeration, the flow rate of the vapor and heating agent is maintained necessary and sufficient to ensure a given residual dissolved oxygen content of 50 μg / L, thereby eliminating the deaerator operation with excessive or insufficient flow of the heating agent and vapor.

The above information indicates that when using the claimed method the following set of conditions:
- a tool embodying the claimed method is intended for use in industry in the field of heat power;
- for the claimed method in the form described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;
- a method of thermal deaeration of water 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 thermal deaeration of water, in which the desorption of oxygen dissolved in water is carried out by contacting the treated water and a heating agent in the deaerator, which are fed to the deaerator, deaerated water and the vapor formed during deaeration is removed from the deaerator, the flow rate of the heating agent supplied to the deaerator is controlled by the pressure in the deaerator, characterized in that the regulation of the flow rate of vapor from the deaerator is performed according to the value of the set residual oxygen content in the deaerator Rowan water.