FI60976C - VAT CYCLING FOR CYCLING AND AIR CONDITIONING - Google Patents

Description

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C PatcnLti myonnci-Ly 10 05 1932

Patent seddelat ^ (51) Ky.lk.3 / lnt.CI.3 B 01 D 45/16 FINLAND —FINLAND (11) htMttlittlMmH-PitimmtMi 770 ^ 9 ^ (22) Hakamlipllvt - Anaeknlngadaf 15 · 02.77 '' '(23 ) Alkupllvi — GihlfhMsdag 15-02.77 (41) Tullut | ulklMlul - Bllvlt offantlif 27.09.77 μ rridmrlMNtui ** «mmmmp» .I.—

Patent · och raglctaratyralMn '' Ansttlun utl * «d odi utl.skrHMn publkwad 29.01.02 (32) (33) (31) Pyydetty * tuolkwi $ —Begird prlorltat 26.03-76

Switzerland-Switzerland (CH) 3802/76 (71) Gebriider Sulzer Aktiengesellschaft, Winterthur, Switzerland-Switzerland (CH) (72) Fritz Laubli, Winterthur, Switzerland-Switzerland (CH) (7 * 0 Oy Kolster Ab (5 ^) Steam / cyclone-type water separator for water mixture -Vattenavskiljare av cyclotyp för en Ing / vattenblandning

The invention relates to a cyclone-structured water separator for a steam / water mixture, having a vertical axis tank with an upper area surrounding the steam space, a lower region of the water space and an intermediate region between the separation zone, the steam / water mixture coming from outside the tank also its water space area is each provided with at least one outlet.

In a water separator like this, the water thrown to the wall of the vessel rushes down this wall down into the water space, while the steam flows up into the steam space. When testing similar water separators, it was found that a thin, normally invisible water film can spread from the inlet of the mixture along the wall of the vessel also upwards. A stream of steam, the passage of which has not yet been fully explained, can push this water film to the outlet, where its strong steam flow forces at this point can be drawn along the wall of the pipe connected to the outlet or as droplets with the steam. The degree of separation of this water separator is therefore insufficient for many applications.

The object of the invention is to improve the degree of separation of the water separator mentioned in the introduction in a simple and efficient manner.

According to the invention, this object is achieved in that at least one suction channel is provided on the wall of the vessel surrounding the steam space to remove water spreading in a membrane-like direction against the steam outlet. in the area above. This design of the water separator provides a side path to the water, along which the water film rising along the helical lines is sucked out by means of a part of the steam stream and led back to the lower area of the water separator. Thus, the water entering the suction channel flows not only into this channel by gravity, but also by the forces of the steam flowing into the suction channel.

Two embodiments of the invention will now be described with reference to the accompanying drawings, in which Figure 1 shows a water separator according to the invention partly in general view and partly in axial section, Figure 2 shows an axial section of the modified water separator top and Figure 3 shows a cross-section of the separator mixture

According to Figure 1, the water separator has a cylindrical vessel 1, the central axis of which is vertical. The container 1 consists of a pipe part 7, a hemispherical bottom base 2 and a hemispherical bottom base 3. An axial steam removal nozzle 4 is provided at the upper end of the container 1, which passes through the hemispherical base 2 and the lower end protrudes from the body inside the container. The hemispherical base 3 is provided with a central male opening 5, which is closed by a lid 15. Obstacles 8 are provided on the inner side of the lid 15 for local interference with the circulating flow of liquid. A water outlet 13 is provided in the hemispherical base 3, to which an outlet line 12 is connected tangentially to its parties.

The lower area of the vessel 1 extending approximately to the dotted line A surrounds the water space of the separator, while the separation zone of the vessel 1 extends from the line A to the dotted line B. The upper end of the vessel surrounds the vapor space of the separator. In the area of the separation zone, an inlet 11 is reserved for the steam / water mixture to be separated in the pipe section 7. An inlet pipe 10 is connected to the inlet opening approximately tangentially.

3,60976

According to the invention, a suction channel is provided in the separator, which is developed according to Fig. 1 in the form of a line 20 extending outside the container 1. The inlet 21 of the suction line 20 is in the wall of the vessel between the inlet 11 of the mixture and the steam outlet 4. The suction line 20 terminates in an outlet 22 in the wall of the tank, which is below the inlet 11 of the mixture and above the outlet 13 of the mixture, and slightly above the water space. The vertical distance a of the inlet 21 from the inlet 11 of the mixture is less than the vertical distance b of the outlet 22 of the suction line 20 from the inlet 11 of the mixture. The membrane-like rising water is now drawn by a partial stream of steam into the suction line 20 and is led back to the lower end of the separation zone of the vessel.

In the exemplary embodiment according to Figures 2 and 3, which is formed in the separator tank 1 in the same way as the example of Figure 1, a suction channel is arranged inside the tank 1, which is formed between the liner plate 30 arranged in the tank and the tank wall. In the area of the liner plate 30, a plurality of spacer strips 31 are provided in the container 1, e.g. eight spacer strips, which are evenly distributed on the circumference of the container and welded to the container. The spacer strips 31 extend to their parties like helical lines, rising in the direction of rotation of the steam / water mixture. The liner plate 30 is attached to the spacer strips 31 by hole spot welds (not shown). The liner plate 30 is perforated in the region of the mixture inlet 11 and the edge 33 of the liner plate opening thus formed is folded outwards so that it joins the wall of the container around the opening 11. Sealing welding of this edge and the tank wall is usually not necessary.

The upper edge 32 of the liner plate 30 is edged slightly outwardly so as to form a narrow slot as an inlet for the release channel. This shrinkage results in a high steam velocity that ensures safe uptake of water rising all the way to the liner. In Figure 2, the axial length of the liner is about 1.5 times the inside diameter of the liner. In general, the length is not dimensioned to be 4 times the inside diameter.

Contrary to the example described, it is also possible, among other modifications, to allow the steam removal nozzle 4 to end in the plane of the hemispherical base 2 so that the protruding part projecting into the container is omitted. It is further possible for one or more tangential or radial outlets to be placed in the tank instead of the axial steam outlet. Likewise, instead of a single mixture supply line 10, several such lines can be connected to the tank tangentially and to the same level and / or different heights. The respective vertical distance between the inlet of the suction duct and the outlet of the mixture is then determined between the upper inlet of the mixture and the inlet of the suction duct or between the lowest inlet of the mixture and the outlet of the suction duct.

In addition, instead of the suction line 20, two or three suction lines distributed on the circumference of the tank can also be reserved for the embodiment according to Fig. 1.

Claims (9)

A cyclone water separator for a steam / water mixture, comprising a vertical axis tank, the upper region of which surrounds the steam space, the lower region of the water space and the intermediate region of the separation zone, the steam / water mixture coming from outside through at least one pipe connected to the tank and wherein the region of the tank's steam space as well as its water space is each provided with at least one outlet, characterized in that at least one water is provided upwards from the inlet (11) of the mixture upwards to the steam outlet (4). a suction channel (20) having an inlet (21) in the inner wall of the tank between the mixture inlet (11) and the steam outlet (4) and having an outlet (22) in the tank in the area below the mixture inlet (11) and above the water outlet (13). Separator according to Claim 1, characterized in that the suction channel is formed by a line (20) connected to the vessel (1) and extending outside the vessel. Separator according to Claim 1, characterized in that a perforated liner (30) in the region of the mixture inlet opening (11) is arranged in the container (1) at a distance from the wall of the container in order to form the suction channel (20). Separator according to Claim 1, characterized in that the vertical distance of the inlet (21) of the suction duct (20) from the mixture inlet (11) is smaller than the vertical distance of the suction duct outlet (22) from the mixture inlet (11). Separator according to Claim 2, characterized in that the inlet (21) of the line (20) is connected to the vessel (1) tangentially to its parties and is led out of this point approximately in the direction of rotation of the steam / water mixture. 5,60976 Separator according to Claim 5, characterized in that the outlet (22) of the line (20) is connected tangentially to the container (1) so that the medium flowing in the line (20) enters the container in the direction of rotation of the steam / water mixture. Separator according to Claim 3, characterized in that the liner plate (30) is fastened to a plurality of spacer strips (31) distributed on the circumference of the container (1) and welded to the container. 6,60976 Separator according to Claim 7, characterized in that the liner plate (30) is fastened to the spacer strips (31) by perforated spot welds. Separator according to Claim 3, characterized in that the vertical dimension of the liner plate (30) is at least 1.5 times the inner diameter of the liner plate (30). 7 60976