DE102007045751B4 - Apparatus and method for moistening a sorbent - Google Patents

Abstract

Apparatus (3) for moistening a sorbent used in the purification of 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) towards the outlet (9)
Movement means are formed by at least one transverse to the direction of movement (X) parallel shaft (10, 10 ', 10'') arranged thereon with conveying tools (11, 11', 11 ''),
characterized,
in that the conveying tools (11, 11 ', 11'') are formed by planar conveying elements (12, 12', 12 '') arranged radially on the at least one shaft (10, 10 ', 10'').

Description

The Invention relates to a device for moistening a sorbent, which in the purification of flue gases after the sorption process is used with a container with an inlet for the sorbent, at least one device for injecting Water in the container and one opposite outlet for the humidified sorbent disposed at the inlet, with means for moving the moistened sorbent from the inlet towards the outlet, which means of movement through at least one arranged parallel to the direction of movement parallel shaft arranged thereon Transfer tools are formed.

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 via an outlet out of this container discharged into a line leading to the flue gas to be cleaned becomes.

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 SO _x , 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 Abreinigungsgrade for SO ₂ of about 60% -70% can be achieved with dry sorption, the cleaning efficiency can be increased by the humidification of the sorbent to approximately 95%. 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 adjustment of the moisture, the so-called flue gas conditioning, takes place 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 Humidifying devices contain mechanical swirlers with rigid ones or flexible turbulence elements, through which an intense Mixing of the recirculated sorbent or Rezirkulats, resulting in water.

For example, this describes WO 98/43729 A1 a device for moistening a sorbent of the subject type. There are slices arranged obliquely on rotating shafts, which causes a mixing of the water with the sorbent and at the same time a movement of the sorbent-water mixture from the inlet towards the outlet. 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 WO 2004/026443 A1 describes a method and apparatus for separating gaseous contaminants from hot process gases by absorption. The process gases are passed through a contact reactor in which an absorbent material is introduced in a moistened state to convert the gaseous contaminants into separable dust. The dust is separated in a Staubabtrennvorrichtung. In a first step, the separated dust is cooled, and in a second step, the cooled dust is mixed with a water vapor-containing gas. The dust moistened by the condensation of water vapor is introduced into the contact reactor to be mixed with the process gases.

The WO 96/16727 A1 discloses an apparatus for mixing particulate matter and a liquid having a container, an inlet for introducing the particulate into the container, a spray for spraying the liquid over the particulate, a stirrer disposed in the container, and an outlet for discharge of the material mixed with the liquid from the container. Further, a liquefying agent is provided to liquefy the particulate matter into the container during the mixing operation.

The WO 96/16722 A1 describes a method for separating gaseous impurities from hot process gases. Hot process gases are passed through a contact reactor in which a particulate absorbing material, which is reactive with the gaseous impurities in the gases, is introduced into the gases to convert the gaseous contaminants into separable dust. The process gases are then passed through a Staubabtrennvorrichtung. The main part of the separated dust is transferred to a mixer where the dust is mixed and moistened together with fresh Absorption material is introduced as recirculated absorbent material in the process gases.

aim The present invention is to provide an above-mentioned Device for moistening a sorbent, whereby a optimal humidification of the sorbent can be achieved and preferably little energy for transportation of the sorbent must be spent. Disadvantages known Devices and methods should be avoided or at least reduced.

Is solved the task of the invention an above-mentioned device in which the conveying tools by radially formed on the at least one shaft arranged flat conveying elements. By such a construction is in contrast to known No mixing of the water with the sorbent or recirculate, but a thin layer of sorbent transported directly from the inlet to the outlet of the container. It forms Quasi a relatively thin Carpet of sorbent in the tank extending from the inlet moved to the outlet and can be optimally moistened. Through the thin carpet can by spraying from above, moisten the material sufficiently evenly when passing it which does not require a mixture of water and solid is. This requires a total of the promotion little energy is applied to the sorbent. The sorbent or recirculate passes directly from the inlet of the moistening device on the shortest Way to the outlet of the moistening device, creating a special short residence time of the sorbent in the moistening device results. The objective Moistening device can be relatively easily and inexpensively manufactured become and carry to create a flue gas purification system, with which particularly high deposition rates can be achieved. By the rapid movement of the carpet of sorbent in the container, this can quickly with Water and consequently reduces the risk of lumping become.

advantageously, are preferably offset radially on each shaft 180 ° arranged flat conveying elements intended. By such an arrangement is the constructive Effort low and the effect of locomotion of the sorbent optimal in the moistening device.

According to one Another feature of the invention, each flat conveying element is formed like a comb. Under the comb-like education is a Zackenform in different to understand geometric configurations.

in the Case of a comb-like design of the conveying elements, it is advantageous when the comb-like conveying elements of a shaft against the comb-like conveying elements of adjacent shaft are arranged offset in the axial direction, so that upon rotation of the waves, the comb-like conveying elements the adjacent waves interlock. This arrangement supports the Transport of the material carpet with only little mixing effect. Furthermore becomes comb-like by such an interlocking arrangement trained conveying elements a self-cleaning of the conveying elements causes.

Of the Inlet for the sorbent is preferably by an oblique in the container opens Channel formed. This will be a uniform task of the sorbent or recirculate into the container achieved.

Of the Outlet is preferably directly to a flue gas to be cleaned premier Line or reaction space or reactor connected. To this Way, it can be ensured that the humidified sorbent evenly in the flue gas line is introduced, where possible binds high levels of pollutants before it in appropriate Filtering devices is deposited.

Of the container the moistening device preferably has a cover, to contamination of the environment of the device by dust-like sorbent to prevent. About that It also prevents ambient air from entering the system is introduced.

in the Area of facilities for injecting water is the cover preferably formed increased.

If the means for injecting of water connected to a compressed air source, these can by compressed air pulses at regular intervals or be cleaned if necessary. About that In addition, a so-called "two-fluid nozzle" can be formed by a compressed air source be supplied with both water and compressed air and a finer atomization the water and thus a more uniform humidification of the sorbent can be achieved.

All Waves can with a drive possibly with the interposition of a transmission be connected.

It is possible, too, that each shaft with one drive at most with interposition a transmission is connected. As drives are particularly suitable Electric motors.

In procedurally becomes the object of the invention also solved by that a layer of the sorbent in the container directly from the inlet of the container is transported to the outlet. Through this promotion The sorbent consumes little energy as it is essentially does not come to a mixing of the sorbent in the container. About that In addition, optimal moistening of the carpet of sorbent in the container achieved.

there the sorbent is preferably sprayed with water.

As well Is it possible, that the sorbent is sprayed with water and compressed air, resulting in finer water droplets can be generated.

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

In this demonstrate:

1 a schematic schematic diagram of a plant for the purification of raw gas;

2 a schematic diagram of a device according to the invention for moistening a sorbent in a sectional side view;

3 a sectional view through 2 along the section line III-III;

4 a further embodiment of a device for moistening a sorbent seen in a sectional view in the direction of movement of the sorbent; and

5 a sectional view of the embodiment of the moistening device according to 4 along the section line VV.

1 shows the block diagram of a system for the purification of flue gases, comprising a container 1 with fresh sorbent, which is added to the raw gas A. In a reaction room 2 or reactor, which is designed as a stationary channel, enters the laden with fresh sorbent raw gas A at the lower end and continues to flow to the upper end. In the reaction room 2 is humidified, recirculated sorbent or recirculate in a moistening device 3 was moistened, mixed. After the reaction room 2 is the material distributed in the flue gas on a filter 4 deposited. The purified by dust and harmful components flue gas, the so-called clean gas B, occurs in the simplest case on a chimney 5 from the plant or it is fed to another process step (not shown). Excess sorbent or recirculate is as residue from the filter 4 discharged and sent for further use or disposal. In case of further use, the recirculation of the moistening device 3 fed and in the reaction chamber 2 added to 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.

2 shows a schematic sectional view of an embodiment of the device 3 for moistening a sorbent 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 8th for injecting water into the container 6 and one opposite the inlet 7 arranged outlet 9 , via which the humidified sorbent in the reactor 2 is introduced. To move the moistened sorbent are in the container 6 Moving means arranged, which by at least one transverse to the direction of movement X arranged shaft 10 . 10 ' . 10 '' with attached conveying tools 11 . 11 ' . 11 '' are formed. The conveying tools 11 . 11 ' . 11 '' be through radially on the waves 10 . 10 ' . 10 '' arranged flat conveyor elements 12 . 12 ' . 12 '' educated. By thus formed moving means arise in the container 6 essentially rolls of sorbent on which a thin layer or a carpet (shown in broken lines) directly from the inlet 7 to the outlet 9 of the container 6 is transported. This sorbent carpet can be optimally watered. The device 8th 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, with the possibility of cyclic cleaning with compressed air pulses may be provided (not shown). The container 6 is with a cover 15 provided in the area of the facility 8th for the injection of water increased ausgebil det is.

The length l of the device 3 is determined by the diameters of the waves 10 . 10 ' . 10 '' arranged flat conveyor elements 12 . 12 ' . 12 '' certainly. The width b of the device 3 (S. 4 ) is determined by the amount of sorbent to be delivered. The ratio of length l to width b is changed depending on the application. The inlet 7 is preferably by an oblique in the container 6 forming channel through which the recirculate into the container 6 can be introduced without causing a thorough mixing of the recirculate. The movement of the carpet of sorbent from the inlet 7 to the outlet 9 is centered on the waves 10 . 10 ' . 10 '' radially aufgesetz th, flat conveyor elements 12 . 12 ' . 12 '' supported. The waves 10 . 10 ' . 10 '' rotate in the example shown counterclockwise and promote the material evenly from the inlet 7 towards the outlet 9 , The number of on the waves 10 . 10 ' . 10 '' assembled conveying tools 12 . 12 ' . 12 '' may vary. In the simplest case, the moistening device includes 3 only one wave 10 with, for example, two radially arranged by 180 ° arranged flat conveying elements 12 (not shown). The moistened sorbent material will go over the outlet 9 , preferably by an oblique plate 16 is formed, the raw gas A added.

3 shows a sectional view through the embodiment according to 2 along the section line III-III. The waves 10 . 10 ' . 10 '' the conveyors are with appropriate drives 17 . 17 ' . 17 '' connected, possibly with the interposition of transmissions (not shown). The flat conveying elements 12 are comb-like and of the wave 10 to the adjacent wave 10 ' so offset that the conveying elements 12 . 12 ' mesh.

The 4 and 5 show a further embodiment of a device 3 for moistening a sorbent, being on each shaft 10 . 10 ' . 10 '' two sets of flat conveyor elements 12 . 12a . 12 ' . 12a ' . 12 '' and 12a '' are provided, which are each offset by 90 ° to each other. By such an arrangement can also be an optimal movement of Tep pichs to recirculate through the moistening device 3 respectively. Again 4 can be taken, in this embodiment, two devices 8th provided for injecting water.

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)

Contraption ( 3 ) for moistening a sorbent used in the purification of flue gases (A) after the sorption process with a container ( 6 ) with an inlet ( 7 ) for the sorbent, at least one device ( 8th ) for injecting water into the container ( 6 ) and one opposite the inlet ( 7 ) arranged outlet ( 9 ) for the humidified sorbent, with means for moving the humidified sorbent from the inlet ( 7 ) towards the outlet ( 9 ), which movement means by at least one transversely to the direction of movement (X) arranged in parallel shaft ( 10 . 10 ' . 10 '' ) with conveying tools arranged thereon ( 11 . 11 ' . 11 '' ) are formed, characterized in that the conveying tools ( 11 . 11 ' . 11 '' ) by radially on the at least one shaft ( 10 . 10 ' . 10 '' ) arranged flat conveying elements ( 12 . 12 ' . 12 '' ) are formed. Contraption ( 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. Contraption ( 3 ) according to claim 1 or 2, characterized in that each planar conveying element ( 12 ) is formed comb-like. Contraption ( 3 ) according to claim 3, characterized in that the comb-like conveying elements ( 12 ) of a wave ( 10 ) with respect to the comb-like conveying elements ( 12 ' ) of the adjacent wave ( 10 ' ) are arranged offset in the axial direction, so that upon rotation of the shafts ( 10 . 10 ' ) the comb-like conveying elements ( 12 . 12 ' ) of the neighboring waves ( 10 . 10 ' ) intermesh. Contraption ( 3 ) according to one of claims 1 to 3, characterized in that the inlet ( 7 ) through an obliquely into the container ( 6 ) channel is formed. Contraption ( 3 ) according to one of claims 1 to 5, characterized in that the outlet ( 9 ) is connected directly to a line leading to the flue gas to be cleaned (A). Contraption ( 3 ) according to one of claims 1 to 6, characterized in that the container ( 6 ) a cover ( 15 ) having. Contraption ( 3 ) according to claim 7, characterized in that the cover ( 15 ) in the field of facilities ( 8th ) is designed to increase the injection of water. Contraption ( 3 ) according to one of claims 1 to 8, characterized in that the facilities ( 8th ) are connected to the injection of water with a compressed air source. Contraption ( 3 ) according to one of claims 1 to 9, characterized in that all the waves ( 10 . 10 ' . 10 '' ) with a drive ( 17 ) possibly with the interposition of a transmission ( 18 ) are connected. Contraption ( 3 ) according to any one of claims 1 to 10, characterized in that each shaft ( 10 . 10 ' . 10 '' ) each with a drive ( 17 . 17 ' . 17 '' ) possibly with the interposition of a transmission ( 18 . 18 ' . 18 '' ) connected is. Method for moistening a sorption by means of a device according to any one of claims 1 to 11, wherein the dry sorbent via an inlet ( 7 ) into a container ( 6 ), moistened with water, and the humidified sorbent via an outlet ( 9 ) from this container ( 6 ) is discharged into a line to be cleaned flue gas (A) leading, characterized in that a layer of the sorbent in the container ( 6 ) directly from the inlet ( 7 ) of the container ( 6 ) to the outlet ( 9 ). Method according to claim 12, characterized in that that the sorbent is sprayed with water. Method according to claim 12, characterized in that that the sorbent is sprayed with water and compressed air.