DE3241540C2 - - Google Patents

Description

The invention relates to a method for treatment one loaded with solids, as absorption medium containing lime or limestone and in the wash tower of a flue gas desulfurization system Washing suspension through oxidation in the laundry sump and subsequent drainage.

It is already known to bring flue gases from combustion processes into contact with calcareous suspensions in order to separate the sulfur oxides contained therein. The absorbed sulfur oxides react in the wash solution with the absorbent lime, forming in the first place the following compounds: CaSO ₃ • _^1/2 H ₂ O (Calziumsulfithalbhy hydrate) and CaSO ₄ · 2 H ₂ O (Calziumsulfatdihy hydrate). It is also known to oxidize the calcium sulfite hemihydrate almost completely to calcium sulfate dihydrate by blowing in air. According to DE-OS 24 47 165, this oxidation takes place in a separate container downstream of the washing tower with a funnel bottom, into which air is blown centrally from below, with a circulation along the vertical container walls being generated in cooperation with a container insert such that a Part of the supplied from above, to oxidize the washing suspension by the blown air with it is carried upwards. The resulting reaction product calcium sulfate dihydrate, which is only slightly soluble in water, is withdrawn as a suspension from the oxidation container and fed to a two-stage dewatering. The first dewatering stage serves to concentrate the solids content to such an extent that in the subsequent second stage the required final moisture content of <10% by weight can be achieved with the corresponding conventional apparatus.

A disadvantage of this procedure is that the drainage was carried out in several stages must become. This is a considerable apparatus Effort required.

The invention has for its object by a appropriate design of the circulation flow in the laundry sump and by an appropriate choice of removal meortes in the laundry sump the washing suspension from the Washing cycle with an increased solids concentration tion to be able to take, the removed feast substances mainly contain the coarser grain fractions ten and the finer grain fractions for further Growth in the wash cycle remains.

This object is achieved by the kenn Drawing features of claim 1 solved.

The advantages with the method according to the invention achieved are that the conventional Procedure can be made easier, especially what the fast and effective achievement of a residual moisture content of <10% by weight. There through that a design already in the laundry sump the circulation flow is carried out, the forces the solid particles in the suspension effective the leaves that for solid enrichment in certain Zones of the suspension can already lead in  Laundry sump a removal point for suspension with increased ter solids concentration can be made without downstream complex thickening systems ahead to have to. By creating a circulation The larger grain fractions predominantly flow on in the possible trigger zones, while the fine grain fractions for further grain growth in the wash circuit remain. This has a positive effect Effect on absorbent consumption and improves the drainability of calcium sulfate di hydrates.

The invention is illustrated by the figure explained.

Flue gas is brought into contact with the kalkhalti wash suspension in a wash tower 1 . This creates calcium sulfite hemihydrate and, depending on the oxygen content of the flue gas, certain proportions of calcium sulfate dihydrate. For disposal, it is necessary to oxidize the calcium sulfite to calcium sulfate. This can be done by blowing air into the laundry sump 2 .

The suspension receives a targeted circulation flow in the laundry sump, which consequently leads to the solid contents contained in the suspension, in particular those with coarser grain fraction, to local solid enrichment in certain zones, from which a suspension with an increased concentration of solids can then be removed. A preferred solids enrichment in this way in the suspension makes further thickening superfluous, so that the suspension can be fed directly to the final dewatering stage 11 . This is done via a line 9 with a pump 10 . Vacuum filters or centrifuges can be used as drainage devices for the final drainage stage. Here the end product is dewatered to the desired residual moisture <10% by weight.

The process sequence described in the figure sets ahead that a preconcentration in the laundry sump of 25-40 wt .-% is reached. Can one Result cannot be achieved and will result from the Pre-concentrations below 25% by weight subtracted, then there is a two-stage drainage required, however, the first drainage level clearly compared to conventional processes can be reduced and also the above be written classification effect is still effective.

Claims (1)

A process for the treatment of a solids-laden, as an absorbent lime or limestone and in the wash tower of a flue gas desulphurization plant resulting in suspension by oxidation in the laundry sump and subsequent drainage, characterized in that the washing suspension in the laundry sump of the washing tower is forced to circulate and washing suspension with increased solids concentration is withdrawn from the zone of increased solids concentration forming in the central floor area of the laundry sump and is fed directly to the final drainage.