DE3241540A1 - METHOD FOR THE CONTINUOUS REMOVAL OF WASHING SUSPENSION WITH INCREASED SOLIDS CONCENTRATION FROM A WASHING TOWER OF A SMOKE GAS DESULPATION SYSTEM WORKING WITH LIME OR LIMESTONE AS AN ABSORPTION AGENT - Google Patents

Description

L. ft C. Steinmüller GmbH 527o Gummersbach, November 8th, 1982 P.O. Box Io 08 55 / Io 08 65 Pa 8217

Kl./Al.

Patent application

"Procedure for the continuous withdrawal of washing suspension with increased solids concentration from a washing tower one with lime or limestone flue gas desulphurisation system working as an absorbent "

The invention relates to a method for continuous Removal of washing suspension with increased solids concentration from a washing tower with lime or limestone flue gas desulphurisation system working as an absorbent.

It is known to bring flue gases from combustion processes into contact with lime-containing suspensions in order to separate out the sulfur oxides contained therein. The absorbed sulfur oxides react in the washing solution with the absorbent lime, whereby the following compounds are primarily formed: CaSO ₃ . 1/2 HO (calcium sulfite hemihydrate) and CaSO ₄ . 2HO (calcium sulfate dihydrate) It is known to almost completely oxidize the calcium sulfite hemihydrate to calcium sulfate dihydrate by blowing air into the scrubber sump. The calcium sulfate dihydrate reaction product formed in this way is only slightly soluble in water. The water cycle therefore usually consists of a suspension with different levels of solids content. When the process is carried out conventionally, a partial stream of this suspension is drawn off and subjected to multi-stage dewatering

· /. BATH ORIGINAL

fed. The first dehydration stage serves to concentrate the solids content to such an extent that in the subsequent second stage with the appropriate conventional apparatus the required final moisture of <■ Io wt .-% can be achieved.

The disadvantage of this procedure is that the dehydration must be carried out in several stages. This requires a considerable outlay in terms of equipment.

The invention is based on the object of being able to remove the washing suspension from the washing circuit with an increased solids concentration by appropriately designing the circulating flow in the retention tank and by selecting the appropriate removal location in the retention tank, the ¹ PestftSrfe predominantly containing the coarser grain fractions and the finer grain fractions remain in the washing cycle for further growth.

To solve this problem, according to the invention, a Proposed method, which is characterized in that the washing suspension in the retention tank Ides washer a circulation flow is imposed and the resulting zones of increased solids concentration Washing suspension is drawn off.

According to a preferred embodiment of the method according to the invention, it becomes apparent in the central floor area of the retention tank forming zone. With an increased solids concentration, washing suspension is withdrawn.

The advantages achieved with the method according to the invention are, are that the conventional procedure can be made simpler, in particular what the quick and effective achievement of a residual moisture content <. Io wt% is concerned. As a result of that

BATH ORIGINAL

the circulating flow is already designed in the retention tank, the forces acting on the solid particles in the suspension can be effective, which leads to the accumulation of solids in certain zones of the suspension lead, a removal point for suspension with increased solids concentration can already be made in the retention tank without having to undertake downstream complex thickening systems. By creating a Circulation flow predominantly get the coarser grain fractions into the possible discharge zones, while the finer grain fractions remain in the washing cycle for further grain growth. This effect has a positive one Effect on the consumption of absorbent and improves the drainability of the calcium sulfate dihydrate.

Using the figures shown in the drawings, the conventional method management is shown in exemplary embodiments and the procedure according to the invention described. Show it:

1 shows an exemplary embodiment of a conventional process management,

2 shows a possible procedure according to the invention.

Flue gas is brought into contact with the lime-containing scrubbing suspension in a scrubbing tower 1. This creates calcium sulfite hair and depending on the oxygen content of the flue gas, certain proportions of calcium sulfate dihydrate. For disposal it is necessary to convert the calcium sulfite to calcium sulfate to oxidize. This can be done by blowing in Air in the scrubber sump 2 happen. A partial flow is withdrawn from the scrubber sump 2 via the line 3 with the pump 4 and fed to the drainage system. The drainage usually consists of two connected in series Stages. The first stage 5 can, for. B. in the form of a sedimentation clarifier or a hydrocyclone be. In this stage the suspension is

BATH ORIGINAL

contents of 3o - 5o wt .-% solids concentrated. The suspension that has been thickened to this point is then fed to a second stage 6 via a line 7 with a pump 8. This second stage 6 can consist of vacuum filters or centrifuges. This is where the end product is down to the Desired residual moisture «Ä Io wt .-% dehydrated.

The inventive method corresponds to what the flue gas treatment is concerned, the method described in FIG. 1. The main difference is that that the suspension in the scrubber sump receives a targeted circulating flow, which results in the in the suspension contained solids, especially those with a coarser grain fraction, lead to a local accumulation of solids in certain zones, from which then a suspension with an increased solids concentration can be removed. A solid preferred in this way f enrichment in the suspension makes further thickening superfluous, so that the suspension is directly Final dewatering stage 11 can be supplied. This is done via a line 9 with pump Io. For the final drainage stage In principle, the same dewatering equipment can be used as with the conventional one Procedure according to FIG. 1.

The process sequence described in FIG. 2 continues presupposes that a pre-concentration of 25 - 40 wt .-% is reached in the scrubber sump. Can such a result not reached and from the scrubber sump, pre-concentrations below 25 wt .-% are then withdrawn Again a two-stage drainage is required, but the first drainage stage is clearly opposite can be downsized by the conventional method of Fig. 1 and also that described above Classifying effect is still effective.

BATH ORIGINAL

Claims (2)

L. & C. Steinmüller Gmfc £ H *: '' 527ο: GuhAversi5ach, November 8th, 1982 P.O. Box Io o8 55 / lo 08 65 Pa 8217 Kl./Al. Claims 1. A method for the continuous removal of washing suspension with increased solids concentration from a Scrubbing tower of a flue gas desulphurisation system that works with lime or limestone as an absorbent, characterized in that the washing suspension in the retention tank of the scrubber one Circulation flow forced on and increased solids concentration from the zones formed in the process Washing suspension is drawn off. 2. The method according to claim 1, characterized in that that from the zen - 1 central bottom area of the retention tank forming zone with increased solids concentration washing suspension is deducted. ' ■ /.