CH623485A5 - Method and devices for regulating the scrubbing performance of a venturi tube - Google Patents

Description

The invention relates to a method and devices for regulating the washing performance of a Venturi tube through which a gas containing components to be washed flows axially and into which a washing liquid is sprayed radially.

Due to the impact of the washing liquid on the constituents to be washed out contained in the gas, the washing liquid is atomized in drops, the gas is braked strongly and experiences a pressure loss. The constituents to be washed out, usually dust, have a density which is usually more than 100 times greater than the density of the gas. The drops of washing liquid enclose the constituents to be washed out, for example the dust particles, and therefore separate the constituents to be washed out from the gas.

It is known to inject the washing liquid into the venturi throat. Since the gas velocity in the throat drops when the gas flow decreases, the separation performance, i.e. the washing performance, also decreases.

In order to remedy this deficiency, it is known to arrange flaps in the throat of the venturi tube and to narrow the throat cross-section in each case so that the speed of the gas is maintained when the gas flow decreases.

For the same purpose, it is also known to arrange axially adjustable conical displacement bodies in the confuser part of the venturi tube, the tip of which points towards the throat. By adjusting the displacement body axially, the passage cross section for the gas flow and thus the gas velocity between the displacement body and the Venturi tube can be changed such that the gas velocity in the throat is kept constant within certain limits as the gas flow decreases.

In these known methods and devices, movable internals are always used, which are complex and require maintenance, particularly in the case of corrosive or hot gases and components to be washed out.

Methods and devices are also known in which the throat cross section remains fixed, that is to say no movable internals are to be provided, and in which the gas velocity in the throat is kept constant by reducing the gas flow by returning the gas emerging from the diffuser part into the confuser part . As a result, however, the concentration of the components to be washed out in the confuser part is reduced, as a result of which the separation performance, that is to say the washing performance, is also reduced.

The object of the invention is to provide a method and devices of the type mentioned at the outset which, with essentially unchanged washing performance, enable better adaptation to fluctuations in the gas flow within certain limits.

To achieve this object, the method is characterized in that, with normal gas flow, the washing liquid is sprayed into the diffuser part of the venturi tube and the spray is moved away from the throat of the venturi tube when the gas flow decreases in the direction of the venturi tube throat or when the gas flow increases.

The feed is therefore usually not where the gas flow has its maximum speed, namely in the throat, but somewhat downstream in the diffuser part. If the gas flow now decreases and thereby the gas velocity, the injection point is moved towards the throat, where the gas velocity is higher. As a result, the relative speed between the radially sprayed-in washing liquid and the gas speed where the gas interacts with the washing liquid can in principle be kept practically constant.

In practice it has been shown that regulation in this sense is possible until the gas flow drops to 40% of the normal gas flow.

Devices according to the invention are explained below using two exemplary embodiments.

Fig. 1 shows a Venturi tube with a radially outward injection direction for the washing liquid in cross section.

Fig. 2 shows a Venturi tube with a radially inward injection direction for the washing liquid in cross section.

1 has a confuser part 12, a diffuser part 14 and a throat 16 in the form of a short hollow cylinder. A pipe 18 to be charged with the washing liquid and having a ring of radially outwardly opening nozzles 19 is arranged concentrically in the venturi tube 10 so as to be axially adjustable. Continuous regulation can be achieved by axially adjusting the tube 18.

2 shows a venturi tube 20 with a confuser part 22, a diffuser part 24 and a throat 26 in the form of a short hollow cylinder.

At an axial distance from one another, two rings of nozzles 30, 32 optionally to be filled with the liquid open radially inwards in the diffuser part 24 and a further ring of nozzles 28 to be filled with the washing liquid opens into the throat 26 of the venturi tube 20.

In this embodiment, only discontinuous control can be carried out. However, the flow of the sprayed-in washing liquid can be adapted to the gas velocity in a simple manner, which is not possible with other Venturi tubes regulated in the sense discussed here. Since the known Venturi tubes only have a fixed liquid feed, the liquid flow fed there is always constant. If the gas flow changes, this means that the liquid / gas ratio increases as the gas flow decreases, which in turn affects the washing performance.

In the embodiment according to FIG. 2, the liquid flow can be adapted to the gas flow in that s

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the ratio of the sum of the cross-sectional areas of the nozzles 28, 30, 32 belonging to a ring and the cross-sectional areas 34, 36, 38 of the Venturi tube 20 in the axial position of this ring is at least approximately constant, for example the quotient of the sum of the cross-sectional areas s the Nozzles 28 through the cross-sectional area 34 equal to that

623 485

Is the quotient of the sum of the cross-sectional areas of the nozzles 30 by the cross-sectional area 36. With decreasing gas flow, the spraying is thus shifted towards the throat 26 and the sprayed-in liquid flow is also reduced accordingly.

1 sheet of drawings

Claims (5)

623 485 1. A method for regulating the washing line of a Venturi tube, through which a gas containing components to be washed flows axially and in the diffuser part of which a washing liquid is sprayed radially, characterized in that when the gas flow is decreased, the spraying in the direction of the venturi tube throat and at Increase in gas flow the injection is moved from the venturi throat. 2. Device for carrying out the method according to claim 1, with a venturi tube, in the diffuser part of which is concentrically arranged a tube to be charged with the washing liquid with a ring of radially outwardly opening nozzles, characterized in that the tube (18) is arranged axially adjustable is. 2nd PATENT CLAIMS 3. A device for carrying out the method according to claim 1, characterized in that at least two rings of nozzles (30, 32) optionally to be charged with the washing liquid open radially inward into the diffuser part (24) of the venturi tube (20) at an axial distance from one another . 4. The device according to claim 3, characterized in that a ring of nozzles (28) opens into the throat (26) of the Venturi tube (20). 5. The device according to claim 3, characterized in that the quotient of the sum of the cross-sectional areas of the nozzles belonging to a ring (28, 30, 32) and the cross-sectional area (34, 36, 38) of the venturi tube (20) in the axial position thereof Rings is at least approximately constant.