AT504426A4 - APPARATUS FOR MOISTURIZING A SORPTION AGENT - Google Patents

Description

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The invention relates to a device for humidifying a sorbent used in the purification of flue gases after the sorption process, comprising a container having an inlet for the sorbent, at least one device for injecting water into the container and an inlet arranged opposite the inlet the humidified sorbent, comprising means for moving the humidified sorbent from the inlet towards the outlet, which movement means are formed by at least one transverse to the direction of movement arranged parallel shaft with conveying tools arranged thereon.

The invention further relates to a method for moistening a sorbent, wherein the dry sorbent is introduced via an inlet into a container, is moistened with water, and the humidified sorbent is discharged via an outlet from this container into a pipe leading to the flue gas to be cleaned.

The present invention relates to plants for the purification of flue gases as they arise, for example, in the combustion of sewage sludge, waste wood, internal waste and other residues. Due to the composition of the fuel used in the combustion of pollutants, which are characterized by a high health and environmental hazard potential. For this reason, it is expedient to purify the flue gases from the pollutants contained, wherein in particular acidic flue gas components, such as S0X, HCl, HF od. Like., Are of importance. Usually, flue gases are purified by the sorption process, wherein a sorbent is introduced into the crude gas stream, which binds the pollutants in the flue gas and can be deposited in the sequence in filters. While dry sorption achieves S02 purifications of about 60% -70%, the degree of cleaning can be increased to about 95% by humidifying the sorbent. The most important control variable for setting optimum reaction conditions in the reactor or filter is therefore the moisture content of the flue gases.

The setting of the humidity, the so-called flue gas conditioning, is done by adding and evaporating water in the flue gas stream. This addition of water for conditioning is added to the recirculated sorbent, the so-called recirculate, in a moistening device or a moistening unit.

Conventional humidifiers include mechanical swirlers with rigid or flexible swirl elements, which result in intensive mixing of the recirculated sorbent with water.

For example, WO 98/43729 A1 describes a device for moistening a sorbent of the type in question. Disposed on rotating shafts are slices arranged obliquely, which intermix the water with the sorbent and at the same time move the sorbent-water mixture from the inlet in the direction Outlet causes. The disadvantage here is that the arrangement of the discs results in a relatively strong mixing and thus the residence time of the sorbent in the moistening device is relatively high. In addition, relatively much energy is introduced for mixing and for fluidization.

The aim of the present invention is to provide an above-mentioned device for moistening a sorbent, whereby an optimal moistening of the sorbent can be achieved and as little energy as possible has to be expended for the transport of the sorbent. Disadvantages of known devices and methods should be avoided or at least reduced.

The object of the invention is achieved by an abovementioned device, in which the conveying tools are formed by flat conveying elements arranged radially on the at least one shaft. By such a construction, in contrast to known devices, no mixing of the water with the sorbent or recirculate caused, but a thin layer of sorbent transported substantially directly from the inlet to the outlet of the container. It forms a quasi a relatively thin carpet of sorbent in the container, the

•··································································································································································································································· Outlet moves and can be optimally moistened. Through the thin carpet, by spraying from above, the material can be moistened sufficiently smoothly by passing it through, whereby a mixture of water and solid is not required. As a result, little energy must be applied overall for the transport of the sorbent. The sorbent or recirculate passes substantially directly from the inlet of the humidifier on the shortest path to the outlet of the humidifier, resulting in a particularly short residence time of the sorbent in the humidifier. The objective humidifying device can be produced relatively simply and inexpensively and helps to create a flue gas purification system with which particularly high deposition rates can be achieved. Due to the rapid movement of the sorbent carpet in the container, it can quickly be sprayed with water and, as a result, the risk of lump formation being reduced.

Advantageously, two preferably radially offset by 180 ° arranged flat conveying elements are provided on each shaft. By such an arrangement, the design effort is low and the effect of locomotion of the sorbent in the moistening optimal.

According to a further feature of the invention, each planar conveying element is formed like a comb. Under the comb-like design is to understand a serrated shape in various geometric configurations.

In the case of a comb-like design of the conveying elements, it is advantageous if the comb-like conveying elements of a shaft are offset from the comb-like conveying elements of the adjacent shaft in the axial direction, so that upon rotation of the waves, the comb-like conveying elements of the adjacent waves interlock. This arrangement supports the transport of the material carpet with little mixing effect. In addition, a self-cleaning of the conveying elements is effected by such an interlocking arrangement of the comb-like conveying elements. ··· · ···· ····················································· ··· ··· »·· ·· ··· - 4 -

The inlet for the sorbent is preferably formed by an obliquely opening into the container channel. As a result, a uniform task of the sorbent or recirculate is achieved in the container.

The outlet is preferably connected directly to a line leading to the flue gas to be purified or reaction space or reactor. In this way it can be ensured that the humidified sorbent is uniformly introduced into the flue gas line, where it binds the highest possible proportion of pollutants before it is deposited in corresponding filter devices.

The container of the moistening device preferably has a cover to prevent contamination of the environment of the device by dust-like sorbent. In addition, this prevents that ambient air is introduced into the system.

In the area of the means for injecting water, the cover is preferably formed increased.

If the means for injecting water are connected to a compressed air source, they can be cleaned by compressed air pulses at regular intervals or as needed. In addition, by a compressed air source, a so-called "two-fluid nozzle". be formed, in which both water and compressed air is supplied and a finer atomization of the water and thus a more uniform humidification of the sorbent can be achieved.

All shafts can be connected to a drive at best with the interposition of a transmission.

It is also possible that each shaft is connected to one drive at most with the interposition of a transmission. Electric motors are particularly suitable as drives.

In terms of the method, the object according to the invention is also achieved in that a layer of the sorbent is applied in the ». · · · · · · · · · ······························

Container is conveyed substantially directly from the inlet of the container to the outlet. As a result of this transport of the sorbent, little energy is consumed since substantially no mixing of the sorbent in the container occurs. In addition, optimum humidification of the sorbent carpet in the container is achieved.

The sorbent is preferably sprayed with water.

It is also possible that the sorbent is sprayed with water and compressed air, whereby finer water droplets can be produced.

The present invention will be explained in more detail with reference to the attached drawings.

1 shows a schematic outline sketch of a plant for purifying raw gas; 2 is a schematic diagram of a device according to the invention for moistening a sorbent in a sectional side view; 3 shows a sectional view through Figure 2 along the section line III-III ..; 4 shows a further embodiment of a device for moistening a sorbent in a sectional view seen in the direction of movement of the sorbent; and FIG. 5 shows a sectional view through the embodiment of the moistening device according to FIG. 4 along the section line V-V.

Fig. 1 shows the block diagram of a plant for the purification of flue gases, comprising a container 1 with fresh sorbent, which is added to the raw gas A. In a reaction chamber 2 or reactor, which is designed as a stationary channel, the raw gas A charged with fresh sorbent enters at the lower end and continues to flow to the upper end. In the reaction space 2 moistened, recirculated sorbent or Rezirku-lat, which was moistened in a moistening device 3, admixed. After the reaction space 2, the material distributed in the flue gas is deposited on a filter 4. The cleaned of dust and Schadkomponenten flue gas, the so-called. Pure gas B, occurs in the simplest case via a chimney 5 from the plant or it is fed to another process step (not dar ··························································· ··· ct , Excess sorbent or recirculate is discharged as residue from the filter 4 and fed to a further use or disposal. In the case of further use, the recirculate the humidifying device 3 is supplied and admixed in the reaction chamber 2 the flue gas. The added amount of fresh sorbent, recirculate and water is adjusted depending on the pollutant concentration in the raw gas A or clean gas B, the amount of raw gas A or clean gas B and the temperature of the raw gas A or pure gas B.

Fig. 2 shows a schematic sectional view of an embodiment of the device 3 for moistening a sorbent, which is used in the purification of flue gases after the sorption process. The device 3 consists of a container 6, an inlet 7 for the sorbent, at least one device 8 for injecting water into the container 6 and an outlet 9 arranged opposite the inlet 7, via which the humidified sorbent is introduced into the reactor 2. For moving the moistened sorbent 6 moving means are arranged in the container, which are formed by at least one transversely to the direction of movement X parallel shaft 10, 10 ", 10" arranged thereon with conveying tools 11, 11 ', 11' '. The conveying tools 11, 11 ', 11' 'are formed by radially on the shafts 10, 10', 10 '' arranged flat conveying elements 12, 12 ', 12' '. By means of such a movement means formed in the container 6 are essentially rolls of sorbent on which a thin layer or a carpet (shown in phantom) is transported substantially directly from the inlet 7 to the outlet 9 of the container 6. This sorbent carpet can be optimally watered. The device 8 for injecting water, for example, consists of a nozzle lance 13, at the end of a nozzle head 14 is grown. The nozzle lance 13 is charged with water, whereby the possibility of cyclic cleaning with compressed air pulses may be provided (not shown). The container 6 is provided with a cover 15, which is formed increased in the region of the device 8 for injecting water.

The length 1 of the device 3 is determined by the diameters of the ··

»« T ··· ··· ··· · # · 7 • ······························································································· The width b of the device 3 (see Fig. 4) is determined by the amount of sorbent to be conveyed. The ratio of length 1 to width b is changed depending on the application. The inlet 7 is preferably formed by an oblique opening into the container 6 channel through which the recirculate can be introduced into the container 6, without causing a thorough mixing of the recirculate. The movement of the carpet of sorbent from the inlet 7 to the outlet 9 is supported by the centered on the shafts 10, 10 ', 10' 'radially patch, flat conveying elements 12, 12', 12 ''. The shafts 10, 10 ', 10 "rotate in the example shown counterclockwise and convey the material evenly from the inlet 7 in the direction of the outlet 9. The number of mounted on the shafts 10, 10', 10 '' conveying tools 12, 12 ' , 12 '' may vary. In the simplest case, the moistening device 3 includes only one shaft 10 with, for example, two flat conveying elements 12 arranged radially offset by 180 ° (not shown). The moistened sorption material is admixed via the outlet 9, which is preferably formed by an oblique plate 16, the raw gas A.

Fig. 3 shows a sectional view through the embodiment of FIG. 2 along the section line III-III. The shafts 10, 10 ', 10' 'of the conveyors are connected to corresponding drives 17, 17', 17 * *, possibly with the interposition of gears (not shown). The flat conveying elements 12 are formed comb-like and offset from the shaft 10 to the adjacent shaft 10 'so that the conveying elements 12, 12' engage with each other.

4 and 5 show a further embodiment of a device 3 for moistening a sorbent, wherein on each shaft 10, 10 ', 10' 'two sets of flat conveying elements 12, 12a, 12', 12a ', 12' 'and 12a '' are provided, which are each offset by 90 ° to each other. By means of such an arrangement, an optimal movement of the carpet to recirculate through the moistening device 3 can take place. As can be seen in FIG. 4, in this embodiment, two means 8 for injecting water are used: ················································································ t.

The shape and size of the flat conveying elements 12, 12 ', 12' 'can be designed in various ways and is adapted to the respective requirements.

Claims (14)

# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # Claims 1. An apparatus (3) for moistening a sorbent used in purifying flue gases (A) after the sorption process, comprising a container (6) having an inlet (7) for the sorbent, at least one means (8) for injecting water into the container (6) and a humidified sorbent outlet (9) opposite the inlet (7), comprising means for moving the humidified sorbent from the inlet (7) in the direction of the outlet (9), which movement means by at least one transversely to the direction of movement (X) arranged parallel shaft (10, 10 ', 10' ') arranged thereon with conveying tools (11, 11', 11 '') , characterized in that the conveying tools (11, 11 ', 11' ') by radially on the at least one n wave (10, 10 ', 10' ') arranged flat conveying elements (12, 12', 12 '') are formed. 2. Device (3) according to claim 1, characterized in that on each shaft (10, 10 ', 10' ') two preferably radially offset by 180 ° arranged flat conveying elements (12) are provided. 3. Device (3) according to claim 1 or 2, characterized in that each planar conveying element (12) is formed comb-like. 4. Device (3) according to claim 3, characterized in that the comb-like conveying elements (12) of a shaft (10) with respect to the comb-like conveying elements (12 ') of the adjacent shaft (10') are arranged offset in the axial direction, so upon rotation of the shafts (10, 10 '), the comb-like conveying elements (12, 12') of the adjacent shafts (10, 10 ') engage in one another. 5. Device (3) according to one of claims 1 to 3, characterized in that the inlet (7) is formed by an obliquely opening into the container (6) channel. 6. Device (3) according to one of claims 1 to 5, characterized in that the outlet (9) directly to a to be cleaned • •················· • · · · · · · · 10 • · • · · · ························································································· 7. Device (3) according to one of claims 1 to 6, characterized in that the container (6) has a cover (15). 8. Device (3) according to claim 7, characterized in that the cover (15) is formed increased in the region of the means (8) for injecting water. 9. Device (3) according to one of claims 1 to 8, characterized in that the means (8) for injecting water are connected to a compressed air source. 10. Device (3) according to one of claims 1 to 9, characterized in that all the shafts (10, 10 ', 101f) with a drive (17) at best with the interposition of a transmission (18) are connected. 11. Device (3) according to claim 10, characterized in that each shaft (10, 10 ', 10' '), each with a drive (17, 17', 17 '') at best with the interposition of a transmission (18, 18 ' , 18 '') is connected. 12. A method for moistening a sorbent, wherein the dry sorbent is introduced via an inlet (7) in a container (6), is moistened with water, and the humidified sorbent via an outlet (9) from this container (6) in one the flue gas (A) leading to the line to be cleaned is discharged, characterized in that a layer of the sorbent in the container (6) is conveyed substantially directly from the inlet (7) of the container (6) to the outlet (9). 13. The method according to claim 12, characterized in that the sorbent is sprayed with water. 14. The method according to claim 12, characterized in that the sorbent is sprayed with water and compressed air. GH / dw