DE3803631C2 - Process for controlling the crystal growth, the filterability and the drainability of flue gas gypsum - Google Patents

Description

The present invention relates to a Ver drive to control the crystal growth, the fil portability and drainability of flue gas gypsum from wet flue gas desulfurization plants, at that the system of coarse-grained flue gas gypsum over one Hydrocyclone is withdrawn.

Is created in wet flue gas desulfurization plants from the alkaline absorbed sulfur dioxide in particular especially under oxidizing conditions and for Calcium ions provided on the other hand Calcium sulfate, which is a poorly soluble calcium sulfate dihydrate fails and as a so-called smoke gas gypsum is separated from the system. It is very desirable that this flue gas gypsum if possible coarse-grained because it is easier to filter, is dewaterable and processable. It is for that necessary that the flue gas gypsum crystals to a sufficient size to grow before it System are withdrawn. The separation usually follows the coarse-grained flue gas gypsum over a hydro cyclone, which one with a hydrocyclone underflow relatively high solids content of coarse-grained crystals and a hydrocyclone overflow with less solid substance content and fine-grained gypsum. The hydrocyclone overflow is returned to the system leads, so that the fine-grained flue gas crystals have the opportunity to continue growing and calcium sulfate newly formed in the aqueous phase to withdraw. The discharge of the coarser-grained Flue gas gypsum is generally controlled via the density of the suspension because this is the only way to guarantee  does that from the absorbed sulfur amount of new calcium sulfate formed in is taken out of the system to the same extent. This however leads to fluctuating loads the flue gas desulfurization system from both the Load as well as the load on the fuel with sulfur different residence times of the Cal ciumsulfate crystals in the system accepted Need to become. This in turn leads to the fact that in Ab depending on the residence time the crystal growth can progress more or less and consequently different average crystal sizes arise. This in turn means that not only the crystal growth, but also the filter Availability and drainability of the separated smoke gas plaster can be subject to considerable fluctuations.

Especially when using limestone as an absorbent agent and when introducing sludge from Ab Water treatment plants in the process are under different amounts of finely divided contaminants in the system. This Verunreini or inert particles, some of which as Crystallization nuclei can act, but also can be inert during the crystallization process, lead to excessive enrichment that the medium grain size drops sharply. When discharging leads from flue gas gypsum over the hydrocyclone underflow the higher proportion of fine grain in the feed to an increased Taking these particles into the lower reaches, on the other to enrich the fine grain particles in the process by recycling via the hydrocyclone overflow. This leads to a rapidly deteriorating Filterability and drainage of the discharged flue gas plaster. Such a flue gas plaster he not only requires larger amounts of energy and longer ones  Times to dry, but mostly also shows poorer properties with regard to further processing workability, for example, on building materials.

The object of the invention is therefore to crystal growth, filterability and Drainability of flue gas gypsum from wet smoke gas desulfurization plants, where the system is rough granular flue gas gypsum extracted via a hydrocyclone is to be controlled so that even with fluctuating loading loads and thus fluctuating dwell times of the Suspension in the system is still an even and coarse-grained flue gas gypsum can be removed.

This problem can be solved in that the Suspension of the hydrocyclone overflow continuously or in Intervals at least part of the fine-grained Solid parts removed and only the remaining aqueous Phase of the suspension returned to the system becomes.

In principle, it is possible to fine-grained solid parts by a second hydrocyclone, one To remove thickener or a filter. When used the second hydrocyclone or a thickener the system is a fraction with medium large particles, while the finest part Chen together with the aqueous phase in the system to be led back. When using filters however, almost all solid parts of the Hydrocyclone overflow withdrawn from the system. this has with the result that when the same amount of weight is withdrawn Solid from the hydrocyclone overflow an essential higher particle number is withdrawn than crystalli germ can act. This will make it  Crystal growth of the remaining fine-grained Fixed parts accelerated faster in the suspension than if the same amount of weight by one Hydrocyclone or thickener is withdrawn, however Number of particles returned still rela tiv is large.

This disadvantage of depriving fine-grained Partition by a second hydrocyclone or However, this may result in thickening compared that the separated fraction with medium Particle size is very suitable after one phase further crystal growth returned to the system to be led. This phase of the further crystal growth can be done for example in a stirred or pumped intermediate vessel, which is especially true when temperatures drop allows increased crystal growth.

When separating the fine-grained solid parts with With the help of a filter, on the other hand, the separate fraction to dry separately and / or to process further, depending on the use purpose of the main fraction of the separated coarser grain gen flue gas plaster is possible, this also the rela tiv small amount of the separately dried fraction to mix fine-grained material. After the fil and coarse-grained flue gas gypsum fraction is no longer necessary to be annoying to mix in fine-grained material.

The method according to the invention is special Meaning for two-stage flue gas desulfurization were where the coarser-grained flue gas gypsum taken from the lower oxidation level and the aqueous  Phase of the hydrocyclone overflow in this lower oxi dation level is returned, for example how in the "double loop" procedure of the applicant.

Another advantage of the method according to the invention is that the dimension of the hydrocyclone is for withdrawal of the coarse-grained flue gas gypsum from the system can be chosen smaller than before. So far namely dimensions of this hydrocyclone chosen so that the separating cut for relatively large grains lies, so that relatively much fine grain ver in the upper reaches remains. However, since the hydrocyclone overflow was previously known as Everything returned to the system decreased the average grain size in the system. This in turn could lead to an insufficient crystal lead growth, so that eventually average grain size of the discharged flue gas gypsum decreased. This in turn leads to worse Filterability and higher residual moisture that only be removed with considerable energy expenditure can. Also the further processability of a fine one granular flue gas plaster is for example for construction purposes deteriorated significantly.

Through the measures of the method according to the invention it is possible to grow the crystal even in extreme to control their situations adequately and thus also the filterability and drainability of the To ensure flue gas gypsum. In normal operation is enough to separate a smaller hydro cyclones with a smaller nominal diameter easily, the accumulated amounts of flue gas gypsum in the ge desired grain to separate.  

About crystal growth, filterability and Controlling the drainability of the flue gas plaster is it is appropriate, in addition to the density measurement of the sluicing suspension also a measurement of the average particle size of the discharged To make flue gas gypsum. When sinking through Average particle size of the mate being removed rials becomes the suspension of the hydrocyclone overflow continuously or at intervals a larger part of the fine-grained solid parts removed. As soon as the middle re grain size of the discharged flue gas gypsum crystals has grown sufficiently again the withdrawal of the fine-grained solid parts is reduced or be completely discontinued. If the separated ten fine-grained solid parts will continue to grow, they can also be problem be fed back into the system. The same applies to quantities that may fluctuate resulting dried fractions separated fine-grained solid parts. These can be found under Um are evenly dosed to the dried smoke gas gypsum are added, so that the real The end product in turn has a relatively uniform approach composition with respect to the grain sizes.

Claims (6)

1. A method for controlling the crystal growth, the filterability and the dewaterability of flue gas gypsum from wet flue gas desulfurization plants in which coarse-grained flue gas gypsum is extracted via a hydrocyclone, characterized in that the suspension of the hydrocyclone overflow continuously or at intervals at least part of the fine-grained Solid parts are withdrawn and only the remaining aqueous phase of the suspension is returned to the system. 2. The method according to claim 1, characterized in that that the fine-grained solid parts by a second hydrocyclone, a thickener or a filter can be removed. 3. The method according to claim 1 or 2, characterized records that the separated fine-grained feast parts dried and / or processed separately become. 4. The method according to claim 1 or 2, characterized records that the separated fine-grained feast divide into crystals after a phase of further crystal growth the system can be returned. 5. The method according to any one of claims 1 to 4, characterized characterized that it is flue gas gypsum from flue gas desulfurization plants where lime stone is used as an absorbent. 6. The method according to any one of claims 1 to 5, characterized characterized that it is flue gas gypsum  from two-stage flue gas desulfurization plants, at those of the coarser-grained flue gas gypsum from the lower one Removed oxidation level and the aqueous phase of Hydrocyclone overflow in this lower oxidation state is returned.