RU162574U1 - INSTALLATION FOR WATER DEAERATION - Google Patents

Abstract

Installation for deaeration of water, containing a deaeration column mounted on the storage tank of the deaerated water, while the deaeration column is made in the form of a water intake chamber in which a low-pressure water distribution device is placed, as well as a pipeline for supplying initial water to the upper part of the deaeration column, a vapor pipe, a pipeline supply of heating steam connected to the storage tank and a pipe for discharging deaerated water, characterized in that it further comprises a flow nozzle turbine a tape mixer and a pipe for supplying steam to the source water, integrated into the pipeline for supplying the source water, as well as a leveling grid, while the low-pressure water distribution device is made in the form of a chaotic nozzle, under which, in the lower part of the deaeration column, there is a leveling grid, a heating steam supply pipe connected to the bottom of the deaeration column, and the vapor pipe is located in the upper part of the deaeration column.

Description

The utility model relates to the field of power engineering, in particular to deaeration plants, and can be used in water treatment plants of thermal power plants, boiler plants and heating networks.

The prototype is a thermal deaerator, including a deaeration column mounted on the deaerator tank, equipped with a nozzle for supplying water and a low-pressure water distribution device - a jet nozzle, while the deaeration column is made in the form of a water intake chamber, the jet nozzle body is built into the water partition and has an inlet opening above the fitting for supplying water to the water intake chamber (Patent RU No. 2473009, IPC F22D 1/50, 01/20/2013)

The main disadvantage of the prototype is the low efficiency of water treatment due to single-stage deaeration of water.

The objective of the utility model is to develop an installation for deaeration of water, which eliminated the above drawback.

The technical result is to increase the efficiency of water treatment by providing a two-stage deaeration of water.

The technical result is achieved by the fact that the installation for deaeration of water containing a deaeration column mounted on the storage tank of the deaerated water, while the deaeration column is made in the form of a water intake chamber, in which a low-pressure water distribution device, as well as a source water supply pipe to the upper part of the deaeration columns, vapor pipe, heating steam supply pipe connected to the storage tank, and deaerated water discharge pipe, according to the present useful mode whether it additionally contains a flowing nozzle turbulent mixer and a pipe for supplying steam to the source water, integrated into the source water supply pipe, as well as a leveling grid, while the low-pressure water distribution device is made in the form of a chaotic nozzle, under which, in the lower part of the deaeration column, a leveling the grill, the heating steam supply pipe is connected to the lower part of the deaeration column, and the vapor pipe is located in the upper part of the deaeration column.

The essence of the utility model is illustrated by the drawing, which shows a schematic diagram of the proposed installation for deaeration of water.

The numbers in the drawing indicate:

1 - deaeration column (water intake chamber),

2 - tank-accumulator of deaerated water,

3 - low-pressure water distribution device (chaotic nozzle),

4 - pipeline supply of source water to the upper part of the deaeration column,

5 - vapor pipe

6 - pipeline supplying heating steam,

7 - pipe drainage deaerated water,

8 - flow nozzle turbulent mixer,

9 - pipe for supplying steam to the source water,

10 - leveling grate.

Installation for deaeration of water contains deaeration column 1 mounted on the storage tank 2 of deaerated water, while deaeration column 1 is made in the form of a water intake chamber, in which a low-pressure water distribution device 3 is placed, as well as a pipeline 4 for supplying source water to the upper part of deaeration column 1 , a vapor pipe 5, a heating steam supply pipe 6 connected to the storage tank 2 and a pipe 7 for discharging deaerated water.

The proposed installation for deaeration of water is characterized in that it further comprises a flowing nozzle turbulent mixer 8 and a pipe 9 for supplying steam to the source water, integrated into the source water supply pipe 4, as well as a leveling grid 10, while the low-pressure water distribution device 3 is made in the form of a chaotic nozzles, under which, in the lower part of the deaeration column 1, a leveling grid 10 is installed, the heating steam supply pipe 7 is connected to the lower part of the deaeration column 1, and the nozzle 5 ra is located at the top of column 1 of deaeration.

Flowing nozzle turbulent mixer 8 is a nozzle "Inzhekhim" (Farakhov MI, Kudryashov VN, Laptev AG, Shigapov IM and others. Nozzle for mass transfer columns, certificate of the Russian Federation for utility model No. 17764 )

Thus, the difference of the proposed installation for deaeration of water is that at a certain concentration of dissolved gases in water, it is first fed to the flow nozzle turbulent mixer 8, where the primary treatment of water occurs, and only then to the deaeration column 1, where further purification from dissolved gases to the required values.

Installation for deaeration of water works as follows.

Deaeration is a process of gas desorption, in which there is a transition of the dissolved gas from the liquid to the vapor in contact with it. In this case, conditions must be created for the transition of gases from water to steam space. One of such conditions is an increase in the surface area of the contact of water with steam in order to bring the particles of the deaerated water stream closer to the interface. The source water is pumped into the pipeline 4, and the steam is supplied under pressure through the pipe 9 installed in the pipe 4. The primary deaeration of the water is carried out in a flow nozzle turbulent mixer 8, in which there is turbulent straight-through movement of steam in the form of small bubbles with water through the nozzle "Inzhekhim ". In the turbulent mixer 8, intense fragmentation of vapor bubbles in water occurs, the surface of the contact phases increases, and the deaeration efficiency is at least 80%. Secondary deaeration of water is carried out in a deaeration column 1, with a low-pressure water distribution device 3 (chaotic nozzle 3) located in it, under which, to increase the deaeration efficiency, a leveling grid 10 is installed for heating steam supplied through pipeline 6. In the deaeration column 1, the contact surface phases reaches a value of 400-600 m ² / m ³ . Primarily purified water with steam bubbles is fed to the upper part of the deaeration column 1, where the water is degassed. Further, the purified water flows down the surface of the chaotic nozzle 3 and interacts in countercurrent with heating steam. The heating steam, which is additionally supplied through a pipe 6 to the lower part of the deaeration column 1, passes through a leveling grid 10 installed under the chaotic nozzle 3, which makes it possible to distribute the flow of heating steam evenly over the entire area. Then the purified water flows into the storage tank 2 of deaerated water, where additional bubbling deaeration takes place with heating steam supplied through pipeline 6. Steam with gases is discharged through the vapor pipe 5 located in the upper part of the deaeration column 1, and deaerated water is discharged through the pipe 7 and goes to the consumer.

.Using the proposed utility model will improve the efficiency of the installation by providing a two-stage deaeration of water. The efficiency of water purification in a flow nozzle turbulent mixer 8 is η ₁ ≈80-90%, and the efficiency of water purification in a deaeration column 1 with a chaotic nozzle 3 and leveling grid 10 is η ₁ ≈95-98%, while the overall water purification efficiency will be make up

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Claims (1)

Installation for deaeration of water, containing a deaeration column mounted on the storage tank of the deaerated water, while the deaeration column is made in the form of a water intake chamber, which houses a low-pressure water distribution device, as well as a pipeline for supplying source water to the upper part of the deaeration column, a vapor pipe, a pipeline supply of heating steam connected to the storage tank and a pipe for discharging deaerated water, characterized in that it further comprises a flow nozzle turbine a tape mixer and a pipe for supplying steam to the source water, integrated into the pipe for supplying the source water, as well as a leveling grate, while the low-pressure water distribution device is made in the form of a chaotic nozzle, under which, in the lower part of the deaeration column, there is a leveling grating, a heating steam supply pipe connected to the bottom of the deaeration column, and the vapor pipe is located in the upper part of the deaeration column.

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