RU2240290C1 - Vacuum deaerating plant - Google Patents

Abstract

FIELD: heat-power engineering.

SUBSTANCE: the invention is dealt with the areas of heat-power engineering and may be used in the boiler rooms and the thermal power stations. The vacuum deaerating plant contains: a vacuum deaerator with connected to it pipelines of the initial water and the heating agent delivery and withdrawal of the deaerated water and the vented steam; a mechanical vacuum pump with an electric drive connected through the pipeline of the vented steam with the vacuum deaerator. The installation is supplied with a unit to control the share of dissolved oxygen connected with the gauge measuring the share of the dissolved oxygen mounted on the pipeline of the deaerated water withdrawal and with a converter of the mechanical vacuum pump electric drive frequency of rotation. The technical result is improvement of quality and profitability of vacuum deaeration of water due to maintaining an optimum mode of operation of the mechanical vacuum pump and exclusion of its operation with excessive power consumption.

EFFECT: the vacuum deaerating plant ensures improvement of quality and profitability of vacuum deaeration of water.

Description

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

Known analogues are vacuum deaeration plants containing a vacuum deaerator with pipelines for supplying source water and a heating agent, for discharging deaerated water and vapor, a mechanical vacuum pump with electric drive, connected with a vapor pipe with a vacuum deaerator (see patent No. 2203859 RU, cl. C 02 F 1/20, 2003, BI No. 13). This analogue is adopted as a prototype.

The reasons that impede the achievement of the technical result indicated below when using the known installation adopted as a prototype include reduced quality and efficiency of vacuum deaeration of water due to the lack of regulation of the operating mode of the mechanical vacuum pump: in a number of modes, the flow rate of the removed vapor is insufficient to achieve the required degassing quality , in other modes, the flow rate of the vapor is kept redundant.

The technical result achieved by the claimed invention is to improve the quality and efficiency of vacuum deaeration of water by regulating the operation of the electric drive of a mechanical vacuum pump.

To achieve this result, a vacuum deaeration unit is proposed that contains a vacuum deaerator with pipelines for supplying source water and a heating agent, for removing deaerated water and vapor, a mechanical vacuum pump with an electric drive connected by a vapor pipe with a vacuum deaerator.

The peculiarity lies in the fact that the installation is equipped with a dissolved oxygen content regulator connected to a dissolved oxygen content sensor mounted on the deaerated water discharge pipe and with a speed converter of the electric vacuum pump mechanical drive.

A new set of elements allows to increase the efficiency of vacuum deaeration of water by maintaining the optimal operating mode of a mechanical vacuum pump and eliminating its operation with excessive energy costs.

The drawing shows a schematic diagram of a vacuum deaeration plant.

The installation comprises a vacuum deaerator 1 with pipelines for supplying source water 2 and a heating agent 3, for discharging deaerated water 4 and for evaporation 5, a mechanical vacuum pump 6 with electric drive 7, a regulator of dissolved oxygen content 8 connected to a pipe for discharging deaerated water 4 a dissolved oxygen content sensor 9 and with a speed converter 10 of the electric drive 7 of the mechanical vacuum pump 6.

Vacuum deaeration plant operates as follows.

Desorption of dissolved oxygen is carried out at the contact of the source water and the heating agent, which are supplied through the pipelines 2 and 3 to the vacuum deaerator 1, the deaerated water is discharged from the deaerator through the pipe 4, and the resulting vapor is removed through the pipe 5 by a mechanical vacuum pump 6 with electric drive 7. Regulation the mechanical vacuum pump 6 is operated by the value of the specified residual dissolved oxygen content in deaerated water using a residual Oren oxygen 9 connected to the controller 8 and the frequency converter 10 the rotation drive 7 mechanical vacuum pump 6. The sensor 9 is measured the residual content of dissolved oxygen in the deaerated water, and its deviation from the desired value changes the drive speed of the mechanical vacuum pump 7 6.

Claims (1)

A vacuum deaeration unit containing a vacuum deaerator with pipelines for supplying source water and a heating agent, for discharging deaerated water and vapor, a mechanical vacuum pump with electric drive, connected with a vapor pipe with a vacuum deaerator, characterized in that the installation is equipped with a regulator of dissolved oxygen, connected with a dissolved oxygen sensor mounted on the deaerated water discharge pipe, and with an electric speed converter electric drive of a mechanical vacuum pump.