SU915879A1 - Deaerator - Google Patents

Description

The invention relates to devices for the removal of gas from a liquid in a vacuum and can be used in technological processes of the chemical, pulp and paper industry and in power engineering.

A device for degassing is known, representing ^{1 * 3} a pipeline connecting two tanks with different liquid levels, in sections of which a vacuum is formed in the supply tank above the water horizon [11] The known device is characterized by low efficiency due to insufficiently developed interface surface and relatively high energy consumption, caused by the need for pre-launch of the device and continuous gas removal using a vacuum pump or ejector.

The closest to the proposed technical essence and the achieved result _m is a degasser, including a vacuum chamber, made in the form of a sequentially installed diffuser and confuser, supply pipe, pipe branch of the liquid and

2

placed in the diffuser convex insert, in which the discharge channel [2].

The disadvantage of the known device is to reduce the efficiency with uneven hydraulic and heat loads, for example, when degassing a mixture of water and condensate in industrial boilers, which is unavoidable when the flow of liquid and gas is unbalanced.

The purpose of the invention is to increase efficiency while reducing energy consumption by balancing the flow of liquid and gas with their mutual self-extrusion in automatic mode.

This goal is achieved by the fact that the degasser, which includes a diffuser, a confuser, a convex insert with a discharge channel, is provided with an annular transverse partition, guide fins with a plate and a funnel with stops installed on the edges with the possibility of reciprocally moving vertically,

FIG. 1 shows a degasser; in fig. 2 funnel in working position.

3 91587!

The device comprises a chamber 1 with a diffuser 2 and a confuser 3, a supply pipe 4, a branch pipe 5 for discharging liquid, a convex insert 6 with a discharge channel 7, an annular partition 8, guide ribs 9, a plate ₅

10 and a funnel 11 with stops 12.

The degasser works as follows.

When filling the chamber with 1 liquid

pipeline 4 the level of fluid in the chamber will begin to rise. The funnel 11 floats up under the action of the buoyancy force of the liquid until the stops 12 touch the insert 6. In this case, the gas released from the liquid is forced out through the channel 7 with the hydraulic lock into the atmosphere. When the level of liquid 15 rises, it overflows into the funnel and fills it, after which the funnel sinks under the action of gravity, and through the gap between the funnel 11 and the plate 10, the liquid begins to flow from the chamber into the branch pipe 5 of the liquid outlet. 20

After a part of the fluid is drained and an equilibrium is established between the pressure (vacuum) in the chamber, the hydrostatic column of fluid and the pressure of the medium into which the fluid is drained, further $ 1 is drained automatically when the fluid flows into the chamber due to the partial pressure of gas dissolved in the liquid, and the pressure of water vapor. When the level of liquid ^ ₃₀ bones in the chamber drops to the upper edge of the funnel, and in the funnel so that it can float somewhat under the action of the buoyancy force of the fluid, the gap between the funnel

11 and the plate 10 begins to contract and further draining of the liquid from the chamber stops. At the same time, a part of the liquid flows onto the plate 10, forming a hydraulic lock that prevents gas from seeping into the branch pipe 5 of the liquid outlet 4

ty in the subsequent displacement of his fluid from the chamber. After this, the cycles of gas displacement by liquid and liquid by gas alternate periodically.

The negative effect of uneven hydraulic and heat load that occurs, for example, when degassing a mixture of water and condensate in production boilers is compensated for in the device by an automatically averaged height of the hydrostatic liquid column and a change in the periodicity of the cycles.

Claims (1)

Claim Decontaminator, including a vacuum chamber, made in the form of a successively installed diffuser and confuser, supply pipe, liquid branch pipe and a convex insert placed in the diffuser, in which a discharge channel is made, characterized in that, in order to increase efficiency while reducing energy costs by balancing liquid flows and gas at their mutual self-extrusion in automatic mode, it is equipped with an annular transverse partition, guiding fins with a plate and a funnel with stops, installed on the edges with reciprocating vertical movement.