DE19614704A1 - Sieve base for the dispersal of gases or liquids - Google Patents

Abstract

A sieve base for the dispersal of gases or liquids, comprises a honeycombed member whose dimensions laterally w.r.t. the channels are greater than in the channel direction. The honeycombed member pref. consists of a ceramic or a plastic material. The carrier plate pref. consists of concrete.

Description

The invention relates to a chemical process engineering for dispersing Ga sen or liquids in, possibly other, liquids or gases applicable Sieve tray and its use.

In the field of chemical engineering, there are a variety of arrangements knows to mostly rising gases in a liquid located above the arrangement disperse and / or in a given reaction space the contact area between two to make different fluids (gases or liquids) as large as possible. Because of him required resistance to aggressive and corrosive chemical influences Glass or ceramics are also used as a material in this area.

So-called valve plate columns made of ceramic are known, in which bell-shaped Valve body can be raised by the gas pressure under the valve bottom, causing the distribution Promote and swirl the gas in the liquid above should prevent it from flowing out through the valve opening (DD 93 530).

Sieve trays made of glass with nozzle-like constriction and additionally inclined are also known openings aligned with the axis of the reaction space (DE 22 60 867).

Apart from the high manufacturing costs due to the large number on the valve or Sieve bottom of valves or openings to be installed with the complicated shape mentioned these devices are only for a narrow working area with regard to optimal bubbles size and viscosity of the media involved can be used. Especially for generation highly effective fine gas bubbles are a high pre-pressure and thus a high energy wall required.  

It is also known to arrange a honeycomb body on a porous plate and its channel fill with a solid that is to react with a fluid flowing through it (JP 01-094940). Here the porous body has the function of a sieve plate and the honeycomb body should fix the solid bed in the lateral direction. This leads to an additional one technical effort, which is only used for certain, easily movable, as a filling solids promises an effect.

The invention has for its object to provide a sieve plate, which at low Pressure loss an even flow of the fluid and in the case of dispersion a gas in a liquid is uniform, opti in the manufacture of the sieve plate times adjustable bubble size with little scattering of the same. This property ten should be used in an advantageous manner when using the sieve plate.

This object is achieved by the invention described in the claims.

In the sieve tray according to the invention with a large number of fine, parallel channels the phases are mixed intimately. The Ge in the channels mixing density is lower than that of the liquid above it (as long as the gas pressure does not come close to the critical point), which creates an additional buoyancy is created to convey the two-phase mixture through the channels. The pressure loss in the Channels are thus reduced by the buoyancy resulting from the density difference. By adjusting the cross-sections of the honeycomb channels on the manufacturing side usually very fine channels) the bubble size can be controlled. Fumigation of the reactor room mes above the sieve tray according to the invention is thus considerably more uniform much better energy utilization than in the prior art.

When used in bulk (fixed bed) reactors in liquids, the effectiveness of the deposition of fine material subsides over time, the invention allows the simple Backwashing using a backwashing liquid plus compressed air to get into the fine channel len in particular of the ceramic honeycomb body a highly effective bubbling and a to generate turbulent two-phase flow through the reactor bed.  

Similar advantageous effects occur with the loosening of ion exchanger plants sieve trays according to the invention.

To the disadvantages of being chemically and biologically resistant and unsustainable Conceivable ceramics include their limited tensile strength, toughness and sensitivity with regard to sudden mechanical influences. To the advantage mentioned above It is advantageous to use le ceramic while avoiding the disadvantages mentioned liable to use the composite construction according to the invention according to claims 4 to 6. So be any setting errors in the printing task are also tolerated.

Furthermore, the construction according to the invention allows based on the entire sieve plate free cross sections from 65 to 70%. Such favorable values enable:

• - a higher throughput,
• - the setting of a lower gas pressure
• - and thus a lower required compressor output
• - Or as an alternative, a higher flushing performance and shorter flushing cycles if required backwashing.

The construction according to the invention, preferably using ceramic, is excluded neatly corrosion and abrasion resistant. The service life of the devices increases considerably Lich.

In some applications, such as in the treatment of very hard water deposits can occur, which in the case of the ceramic honeycomb body are very simple can be removed using strong acids such as hydrochloric acid or sulfuric acid.

The invention is explained in more detail below using an exemplary embodiment. The Embodiment relates to a deacidification filter for drinking water treatment. The at attached drawings represent:

Fig. 1 shows an axial section through the filter system mentioned with a sieve tray according to the invention.

Fig. 2 is a plan view of an inventive screen as claimed in claim 6.

Fig. 3 is a partial section through a sieve bottom according to claim 6.

An upright filter system ( Fig. 1) of about 1.80 m in height and 0.60 m in diameter has a sieve tray 1 according to the invention, which carries a bed 2 of filter material up to one meter high (claim 2). The raw water is supplied through a line 3 and a bell 4 , in which the coarsest solid constituents are also supposed to settle. An overflow is marked with 5 and a manhole with 6 for possible repair and maintenance work. An outlet 7 for the pure water and an air inlet 8 are provided under the sieve tray 1 . The latter introduces the process air under excess pressure, which is then finely distributed in the water via the sieve tray 1 according to the invention, which is located in the filter material bed 2 , as a result of which the process air is intensively distributed and effective.

For reasons of strength, the sieve plate 1 consists of a carrier plate 9 made of glass fiber reinforced polyester, which is a light, strong and at the same time corrosion-resistant and physically harmless material on which a number of small honeycomb bodies 10 are arranged in a checkerboard manner ( FIG. 2). Fig. 3 shows the exact arrangement of the parts essential to the invention. The carrier base 9 has bores 11 with a diameter of 60 mm. Then the honeycomb body 10 are separated by spacers 12 so that they cover the holes 11 . These honeycomb bodies 10 made of cordierite ceramic have a height (in the direction of the vertically running honeycomb channels) of 12 mm and an edge length in the horizontal direction of 52 mm. The honeycomb channels of the honeycomb body 11 have a square cross section with an edge length of 1.09 mm, which together with a wall thickness between the honeycomb channels of 0.35 mm gives a free cross section of 69%. At a hydrostatic pressure, which stood a water of 1.2 m above the sieve tray 1 and an overpressure of the air entering through the air inlet 8 of 0.35 MPa, a pressure drop of only 104 Pa results in the honeycomb bodies. The air flow is 26 kg / h and the average size of the air bubbles is 1 mm with a standard deviation of only about ± 0.1 mm.

Claims (18)

1. sieve plate for dispersing gases or liquids in, possibly other, liquids or gases, characterized in that it consists of a honeycomb body, the dimensions of which are substantially larger transversely to the direction of the honeycomb channels than in the direction of the same. 2. Sieve tray according to claim 1, characterized in that it is covered with a bed is. 3. Sieve tray according to claim 1 or 2, characterized in that the honeycomb body Ceramic is made. 4. Sieve tray according to claim 1 or 2, characterized in that the honeycomb body Plastic is made. 5. Sieve tray according to claim 1 or 2, characterized in that the honeycomb body Metal. 6. sieve bottom according to claim 5, characterized in that the honeycomb body from up wrapped corrugated iron. 7. Sieve tray according to one of the preceding claims, characterized in that individual Honeycomb bodies are fitted into openings in an otherwise impermeable support plate. 8. sieve tray according to claim 7, characterized in that the support plate made of steel be stands.   9. sieve tray according to claim 7, characterized in that the support plate made of concrete be stands. 10. Sieve tray according to claim 7, characterized in that the support plate made of fiber reinforced plastic. 11. Use of a sieve tray according to claim 1 to 10 in water purification reactors. 12. Use of a sieve plate according to claim 1 to 10 for backwashable bulk material filter. 13. Use of a sieve plate according to claim 1 to 10 for loosenable bulk goods Ion exchange plants. 14. Use of a sieve tray according to claim 1 to 10 in separation columns with packing pern. 15. Use of a sieve tray according to claim 1 to 10 for separating the mixing area from the decanting area in extraction columns. 16. Use of a sieve tray according to claim 1 to 10 in liquid fumigation and - Ventilation facilities. 17. Use of a sieve tray according to claim 1 to 10 in humidification systems or Moisture saturation systems. 18. Use of a sieve tray according to claim 1 to 10 in systems for the two-phase Flow of liquids.