RU2224174C1 - Vacuum de-aeration unit for boiler plant - Google Patents

Abstract

FIELD: de-aeration of water in boiler plants. SUBSTANCE: proposed plant includes vacuum de-aerator with pipe lines for starting water, heating agent and de-aerated water, starting water heater connected to starting water pipe line which is connected with heating agent pipe line. Unit is also provided with regulator of content of oxygen dissolved in de-aerated water which is connected with sensor showing content of oxygen dissolved in de-aerated water and with controls fitted in heating agent pipe line and in heating agent pipe line of starting water heater. EFFECT: enhanced reliability and economical efficiency. 1 dwg

Description

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

Analogs are known - vacuum deaeration plants containing a vacuum deaerator with pipelines of source water and a heating agent, connected by a pipeline of deaerated make-up water with a return line, a heater of source water included in the pipeline of source water, to which a heating medium pipeline is connected (see article Sharapov V.I. Installation of vacuum deaerators in heat supply systems // Industrial Energy, 1976, No. 12). This analogue is adopted as a prototype.

The disadvantage of analogues and prototype is the reduced cost-effectiveness and reliability of the vacuum deaeration unit due to increased energy costs for heating the source water and supplying a heating agent to the deaerator, with a residual oxygen concentration in the deaerated water below the required value. Since the normative quality of water deaeration, which is characterized primarily by the content of dissolved oxygen in deaerated water, can be achieved at significantly lower values of the temperature of the source water and the consumption of the heating agent, deaeration almost always occurs with excessive temperature of the source water and the consumption of the heating agent. On the other hand, in a number of regimes the heating agent may not be sufficient to ensure the normative quality of deaeration, which is especially characteristic of vacuum deaeration of water. Thus, another disadvantage of the known boiler installation is the low quality of water deaeration, leading to a decrease in the reliability of the boiler installation.

The technical result achieved by the present invention is to increase the reliability and efficiency of the boiler plant by maintaining optimal parameters of the source water temperature and the flow rate of the heating agent supplied to the deaerator.

To achieve this result, a vacuum deaeration plant of a boiler house is proposed, containing a vacuum deaerator with pipelines of feed water, a heating agent, deaerated water, a feed water heater included in the feed water pipe, to which a heating medium pipe is connected.

The peculiarity lies in the fact that the installation is equipped with a regulator of dissolved oxygen in deaerated water, which is connected to a sensor for dissolved oxygen in deaerated water and to regulating bodies on the heating agent pipeline of the vacuum deaerator and on the heating medium pipeline of the source water heater.

The new interconnection of elements allows to increase the reliability and efficiency of the vacuum deaeration plant of the boiler room by ensuring the required quality of deaeration during the economic operation of the boiler room.

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 vacuum deaeration plant boiler, containing a vacuum deaerator 1 with pipelines of source water 2 and a heating agent 3, connected by a pipeline of deaerated make-up water 4 with a return pipe 5, included in the pipeline of source water 2, the source water heater 6, to which the pipeline is connected heating medium 7. The installation is equipped with a regulator of dissolved oxygen 8 in the make-up water of the heating system, which is connected to a sensor of dissolved oxygen yes 9 deaerated make-up water and with regulators 10 for heating agent conduit of the vacuum deaerator 11 and the piping heating medium initial water heater.

Vacuum deaeration plant boiler works as follows.

The make-up water of the heating network is deaerated in a vacuum deaerator 1 before being fed to the return line 5, for which source water and a heating agent are supplied to the deaerator. Before feeding into the deaerator, the source water is heated in the source water heater 6. Maintaining a predetermined concentration of dissolved oxygen in the deaerated make-up water is carried out by sequentially controlling the temperature of the source water and the flow rate of the heating agent. With an increase in the concentration of dissolved oxygen relative to a predetermined value, the source water temperature is first increased within the thermal power of the source water heater or to a temperature of t = 40-50 ° C, and then, if necessary, the flow rate of the heating agent is increased and, conversely, when the oxygen concentration is decreased relative to the specified value first reduce the consumption of the heating agent, and then lower the temperature of the source water. This regulation procedure ensures economical operation of the boiler room.

Thus, the proposed solution improves the reliability and efficiency of the vacuum deaeration plant of the boiler room by providing a given concentration of dissolved oxygen in deaerated make-up water during the economic operation of the boiler house as a whole.

Claims (1)

A boiler room vacuum deaeration plant, comprising a vacuum deaerator with pipelines of feed water, a heating agent, deaerated water, a feed water heater included in the feed water pipeline, to which a heating medium conduit is connected, characterized in that the plant is equipped with a regulator of dissolved oxygen in deaerated water, which connected to a sensor for the content of dissolved oxygen in deaerated water and to regulatory bodies on the pipeline of the heating agent of the vacuum deaera torus and on the heating medium pipeline of the source water heater.

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