DE2046600A1 - Gas liquid separator - for mainly gaseous mixtures using vortex chamber with peripherally spaced axial slots - Google Patents

Abstract

The vortex chamber, esp. circular, has a coaxial lower inlet and upper outlet for gas-6iquid mixture which is injected axially or tangentially so that it has a spiral path. A number of axial slots, esp. four, is placed in a ring around the wall and each has a baffle plate on its trailing edge which protrudes into the chamber at an angle and points into the direction of rotation of the vortex. Each plate fills the height of its slot and this height is determined by the pitch of the spiral vortex and by the number of slots. Used esp. for preliminary drying of the steam output of a cyclone separator it introduces a very low pressure drop. Esp. used in nuclear reactors.

Description

"Vortex separator for separating a gas-liquid mixture" Die The invention relates to a vortex separator for separating a gas-liquid mixture with a predominantly gaseous component, consisting of one, in a jacket surface Vortex chamber containing openings, into which the mixture to be treated has a helical shape Rotational movement executes.

With such vortex separators the problem arises from the mixture ejected liquid from the wall of the vortex chamber from the vortex separator lead out, ozone that a substantial part of the liquid back into the gas stream got.

The best-known vortex separators achieve this in that the ejected liquid flows downwards, while the gas flows through a central Withdrawal tube is withdrawn upwards. By the German Auslegeschrift 1 266 728 but it is also known to have a vertebral carnival down through a base plate to close and to make openings in the lower part of its lateral surface. In the case of the separator disclosed in the above-mentioned patent application, the gas leaves the separator also through a central extraction pipe, while the separated Water but the separator in the radial direction through the openings in its lateral surface leaves.

This known vortex separator is particularly suitable when a mixture with a predominant liquid component of its gaseous component should be separated. As a result of the rotary movement in the separator, it forms in the middle of the separator a so-called steam pigtail, which is pulled off towards the top while the outer part of the separator is filled by a thick water ring which is pressed by the centrifugal forces in the radial direction, whereby the water easily through the existing openings in the outer surface flow away sparingly.

If you wanted this separator to separate a gas-liquid mixture with use predominantly gaseous components, so it would not be guaranteed that? most of the ejected droplets reach the outside through the openings, rather, there would be the risk that a considerable proportion would be recovered by the gas flow gets carried away. In addition, by deflecting the gas flow from his rotating downward movement for upward flow through the central sampling tube there is a considerable loss of pressure.

By the German utility model 1 932 237 is a separation device known for liquid fractions, in which the liquid fractions upon impact on a baffle surface from a gas or I) ainpfstrom deflected on this baffle plate are deposited, especially for baffle plates in the area of the exhaust valves mechanical high vacuum pumps and a hollow impact body on the edge of the baffle plate is arranged circumferentially, which is a flow guide surface after the flow impingement side has, the distance from the surface of the baffle plate is greater than the thickness that is formed by the deposition of the liquid components on the surface Liquid films. With this arrangement, drops are produced with a catching body peeled from an unguided gas-liquid flow. This working principle will adopted according to the invention for a vortex separator.

The invention is based on the object of a vortex separator to the Separation of a gas-liquid mixture with a predominantly gaseous component develop in which the ejected liquid is well guided out of the vortex chamber and only a very small proportion is entrained again by the gas flow. Additionally the best possible separation effect is to be achieved with a low pressure loss.

According to the invention, this object is achieved in a vortex separator Separation of a gas-liquid mixture with a predominantly gaseous component, consisting of a vortex chamber containing openings in its outer surface, into which the mixture to be treated flows tangentially or axially, thereby solved, that the openings of the vortex chamber protruding into the interior of the ram, the rotational flow have opposing projections. According to a further development of the invention, has the vortex separator has an axial gas outlet at the one opposite the gas inlet axial side of the vortex separator to get static energy from the kinetic hlergie win back. In addition, with such a design, the pressure loss is particularly low.

An embodiment of the invention is shown in the drawing and is described in more detail below. 1 shows a vertical section through the lower part of a vortex separator according to the invention; Fig. 2 shows a horizontal Sclmitt through the lower part of the Vortex separator according to FIG. 1 along lines A-A.

In Fig. N, 1 denotes the vortex chamber into which the to separating mixture executes a rotating upward flow. This can be better known Way through a blade ring with axial entry or through tangential entry be forced. The swirl chamber 1 has slots uniformly distributed on the circumference 2, 2 ', 2 "and 2'" '. At the rear edges of the slots as seen in the direction of rotation 2, 2 ', 2' and 2 '' ', are projections directed in the opposite direction to the rotational flow', 3 "and 3 '' 'arranged, for example in the slots 2, 2', 2 '' and 2 '' ' rest on their rear edges seen in the direction of rotation and welded there are.

These projections 3, 3 ', 3 "and 3'" ', act as a stripping surface by they protrude into the vortex chamber 1 by a predetermined amount. This amount Like the free cross-section of the slots, it depends on the proportion of those to be deposited Liquid in the mixture. The cavity of slots 2, 2 ', 2 "and 2'" 'and with it the height of the projections 3, 3 ', 3 "and 3'" 'must not be less than a quarter be the pitch of the helical mixture flow if four slots 2, 2 ', 2 "and 2" '' are provided on the circumference to avoid any droplets that are thrown towards the wall capture.

The advantages of the vortex separator according to the invention are that the ejected drops of liquid are safe from the wall can be peeled off and thus cannot be carried away again by the gas flow. This advantage over known vortex separators in a comparatively simple design allows the gas outlet on the axial side opposite the gas inlet of the vortex separator to be arranged so that the mixture flow to be separated the vortex chamber flows through in the axial direction and the predominantly gaseous component flows through the vortex chamber leaves in the same axial direction as the entry direction without deflection. By the vortex separator according to the invention is suitable for the simple construction that is possible as a result very good for the separation of droplets, for example a downstream To relieve steam dryer.

The vortex separator according to the invention is particularly suitable for in nuclear reactors as a post-separator on the steam outlet from cyclone separators to be arranged. This relieves the pressure on the downstream steam separators will.

The vortex separator according to the invention can also be used as a stand-alone device Separators are used. Depending on the requirements, an axial mixture inlet can be used can be provided with a vane grille to generate swirl or tangential entry. It is also at the discretion of the specialist> with an upward or downward direction helical rotational movement of the mixture ini vortex to work. Finally it should be pointed out that the separator according to the invention is also suitable for separating dust suitable.

Claims (5)

Claims Vortex separator for separating a gas-liquid mixture with predominantly gaseous component, consisting of openings in its outer surface containing vortex chamber into which the mixture to be treated tangentially or axially flows in, characterized in that the openings (2, 2 ', 2 "and 2"') of the vortex chamber (1) protruding into the interior of the chamber and directed opposite to the rotational flow Have protrusions (3, 3 ', 3 "and nd 3'" '). 2. Vortex separator according to claim 1, characterized in that that the swirl chamber (i) is cylindrical and four slot-like openings (2, 2 ', 2' ', 2 '' ') are present in the lateral surface of the swirl chamber (1) and the projections seen from the in the direction of rotation. from the rear shrouds of the openings 3. Vortex separator according to claim 1 or one of the following, characterized in that that the projections (3, 3 ', 3' 'and 3' '') cover the entire height of the openings (2, 21, 211 and 2111) and the height of the openings depends on the pitch of the helical Rotary flow and the number of openings distributed around the circumference. 4. Vortex separator according to claim 1 or one of the following, characterized characterized in that it is placed on the steam outlet pipe of a cyclone separator and is flowed through from bottom to top. 5. vortex separator according to claim 1, characterized in that a axial gas outlet p..n of the opposite axial side of the gas inlet Vortex separator is provided. L e r s e i t e