RU2225570C1 - Method for thermic deaeration of water - Google Patents

Abstract

FIELD: thermic deaeration of water, possibly in boiler aggregates. SUBSTANCE: method comprises steps of deaerating water in vacuum deaerator by feeding to deaerator initial water and heating agent; sustaining predetermined concentration of dissolved oxygen in deaerated water by successively controlling temperature of initial water and flowrate of heating agent; when oxygen concentration exceeds predetermined value at first increasing temperature of initial water and then, if necessary increasing flowrate of heating agent; when oxygen concentration becomes lower than predetermined value at first decreasing flowrate of heating agent and then lowering temperature of initial water. EFFECT: enhanced efficiency and reliability of boiler aggregate. 1 dwg

Description

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

 Analogs are known - methods of thermal deaeration of water, by which make-up water of the heating system is deaerated in a vacuum deaerator before being fed to the return line, for which source water and a heating agent are supplied to the deaerator (see the directory "Vacuum Deaerators" M .: NIIINFORMTYAZHMASH, 1972, fig. 15, p. 15). This analogue is adopted as a prototype.

 The disadvantage of analogues and prototype is the reduced efficiency of the method of thermal deaeration of water due to increased energy costs for heating the source water and supplying a heating agent to the deaerator at a residual oxygen concentration in 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 modes, the consumption of the heating agent may be insufficient to ensure the normative quality of deaeration, which is especially characteristic of vacuum deaeration of water. Thus, another disadvantage of this method 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 method of thermal deaeration of water is proposed, by which water is deaerated in a vacuum deaerator, for which source water and a heating agent are supplied to the deaerator.

 The difference of the proposed method is that the maintenance of a given concentration of dissolved oxygen in deaerated water is carried out by sequentially controlling the temperature of the source water and the consumption of the heating agent, and when the concentration of dissolved oxygen is increased relative to the set value, the temperature of the source water is first raised and then, if necessary, the consumption of the heating agent is increased and, conversely, when lowering the oxygen concentration relative to a given value, the flow rate is first reduced heating agent, and then lower the temperature of the source water.

 A new method of thermal deaeration of water can improve the reliability and efficiency of the boiler installation by ensuring the required quality of deaeration during the economical operation of the boiler room as a whole.

 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 boiler plant.

 The boiler installation contains a vacuum deaerator 1 with pipelines of the source water 2 and a heating agent 3, connected by a pipeline of deaerated make-up water 4 with a return pipe 5, the heater of the source water 6 included in the pipeline of the source water 2 with the pipeline of heating medium 7 and the heater of heating agent 3 in the pipeline of the heating agent agent 8 with a heating medium pipeline 9. The station is equipped with a regulator of dissolved oxygen 10 in the make-up water of the heating system, which is connected to a sensor for the content of dissolved oxygen 11 oxygens in deaerated make-up water and with regulators 12 on the pipeline and the heating agent conduit 13 for a heating medium source water heater.

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

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. The source water is heated in the source water heater 6, and the heating agent is heated in the heater 8. A predetermined concentration of dissolved oxygen in the deaerated feed water is maintained by sequentially controlling the temperature of the source water and the consumption of the heating agent. When increasing the concentration of dissolved oxygen relative to a given value, first increase the temperature of the source water within the thermal power of the source water heater or to a temperature of t = 40-50 ^o C, and then, if necessary, increase the flow rate of the heating agent and, conversely, with a decrease in oxygen concentration relative to the set value first reduce the consumption of the heating agent, and then lower the temperature of the source water.

 Thus, the new method allows to increase the reliability and efficiency of the boiler plant by providing a given concentration of dissolved oxygen in deaerated make-up water with a minimum consumption of heating agent for deaeration of water and economical operation of the boiler room as a whole.

Claims (1)

A method of thermal deaeration of water, in which water is deaerated in a vacuum deaerator, for which source water and a heating agent are supplied to the deaerator, characterized in that the predetermined concentration of dissolved oxygen in the deaerated water is maintained by sequentially controlling the temperature of the source water and the consumption of the heating agent, moreover, increasing the concentration of dissolved oxygen relative to a given value, first increase the temperature of the source water, and then, if necessary, increase the consumption of heat conductive agent and, conversely, the oxygen concentration is lowered relative to a predetermined value initially reduce consumption of the heating agent, and then reducing the temperature of the source water.