DE3211007A1 - Dust gas filter - Google Patents

Abstract

A flue gas purification plant is composed of a plurality of dust gas filters connected in parallel, the filter elements of which are cleaned from time to time, in which the particles falling downwards are fed to a common dust transport device, with the aid of which these particles are transported to an area of the raw gas line in which the newly arriving flue gas flows through one or more spherical rotors arranged in parallel and as a result the particles returned from the filters are collectively fed again with the flue gas to the filter elements. The quantity of particles circulating in the system is limited by removal of a part-quantity of particles at an appropriate position for this, so that after a settled state has been attained, a stable equilibrium is inevitably established with respect to the quantity of particles circulating.

Description

Dust gas filter

The invention relates to a dust gas filter according to the preamble of claim 1.

It is known (DE-PS 21 12 062), the periodic with dust gas filters by countercurrent purging and / or shaking dust from a dust or Partly recirculate flue gas to the filter surfaces in order to create an agglomeration to achieve the dust with pollutant gas binding, through which the dust gas passage made possible by the filter surfaces without a significant increase in the flow resistance and cleaning of the filter surfaces is made easier.

In the case of dust gas filters with recirculation of part of the periodic Cleaning of the filter elements accumulating dust with any additives added, which serve to bind the pollutant gases of the dust gas, it is further in the cycle known (DE-PS 27 43 805), the resulting dust and any additives a dated to be cleaned to supply dust or flue gas flowed through spherical rotor, the out a perforated drum or sieve drum set in rotation with partial filling consists of balls or bodies. This ensures that entrained in the flue gas Adhesive fine dust when filtering out onto a deposited on the filter surface Old dust strikes and agglomerated and aged after cleaning, together with the newly inflowing flue gas, the filter surfaces, at least partially is fed back, reducing the risk of clogging of the filter material is removed, so that the dust with the help of conventional cleaning devices from the filter surfaces can be solved. The procedure was as shown in the DE-PS 27 43 805 or 27 38 118 results.

Is to filter a large amount of flue gas and / or of harmful gases too free, several dust gas filters are connected in parallel. To now in the presence an adhesive dust in the flue gases and / or when adding additives to the dry one Sorption if several dust gas filters need to be connected in parallel clogging of the filter elements and / or premature loss do not yet occur Switch off sufficiently used additives with as little design effort as possible to be able to, the invention consists in that using several in known Way of parallel connected dust gas filter at their lower dust outlet a common one Dust conveyor is connected, the outlet in one in the Dust gas supply line A spherical rotor that is arranged transversely to the direction of flow and can be rotated opens, to which there is a shaft with a distribution line leading to the dust gas filters and that there is a decrease in the overall system at a suitable point is arranged for a partial amount of particles, whereby the total circulating in the system Particle amount is made limited.

This solution avoids that each of the dust gas filter with its own spherical rotor according to DE-PS 27 43 805 or 27 38 118 equipped must be in order to properly clean larger amounts of smoke gas with or without Binding of harmful gases to additives to achieve that only at one point one or more spherical rotors for all dust gas filters connected in parallel can be used together, reducing the investment in such Cases can be kept low.

So there are according to the invention from the individual dust gas filters Accruing particles over a common spherical rotor area, this as old dust again supplied with the flue gas to be cleaned, whereby to limit the total amount of particles circulating in the circuit a part of a suitable one Place is carried out.

The horizontal, perpendicular or inclined shaft is advantageous according to the invention by extension as Vortex chamber designed to thereby agglomerate the dust particles and the To promote sorption of harmful gases to additives that may have been added.

The invention is described below. explained with reference to the drawing, in the one system for cleaning large quantities of flue gas through several connected in parallel Dust gas filter according to the invention is shown schematically.

In the drawing example, 4 dust gas filters 1, 2, 3 and 4 are parallel shown switched, but fewer or more dust gas filters can be used Come on. The housing of each dust gas filter 1 - 4 is perforated through a Partition (5) divided in a known manner into dedusting space 6 and clean gas space 7, the clean gas via a common collecting line (8) indicated by dashed lines is removed.

The dust gas space 6 of each filter takes in parallel, perpendicular rows the from the outside to the inside acted upon with dust gas filter hoses 9, whose open ends in connection with the clean gas space 7 via a seal on the partition wall 5 stand, in which a purge gas nozzle that periodically wanders along the partition wall 10 is provided, through which the filter elements 9 periodically by countercurrent purging be freed from accumulated dust. It can but also others Cleaning systems, if necessary supplemented by a vibrating device, are provided will.

Each dust gas filter 1 - 4 is connected to the lower dust collecting chamber 11 provided with a dust discharge screw or the like, which in the periodic Cleaning of the dust accumulating on the filter surfaces via a sluice (by means of a circle indicated by a cross) a common dust conveyor 12 supplies, with the Help the dust mechanically, e.g. by means of a transport screw or else pneumatically transported by means of a conveyor line to the area of a spherical rotor will. The filter elements 9 of all dust gas filters 1 - 4 are cleaned from time to time, so that the dissolved dust falls down and from the subsequent conveyor 12 can be transported further.

The dust conveying device 12 opens with a connector 13 into the raw gas line 14, in the transverse to the flow direction below the connector 13 one in rotation displaceable spherical rotor 15 is mounted, which consists of a sieve or perforated drum with partial filling consists of spheres or non-round bodies. Further one can Device 16 may be provided through which the dust conveying line 12 with additives can be charged, which are able to remove any harmful gases in the flue gas by means of ad- or to bind absorption. The additive feed can also be connected to another Job of the system, but it is a prerequisite that this point is within of the raw gas area of the plant.

The flue gas to be cleaned arrives after flowing through the spherical rotor 15 in a horizontal, vertical or inclined shaft 17 and is via a Distribution line 18 is supplied to the individual dust gas filters 1-4. According to the example the supply takes place in the upper part of the individual dust gas filters 1 - 4, but can also take place in each case in the funnel 11 of the dust gas filter.

When it comes to extremely large amounts of flue gas, the spherical rotor would have to 15 correspondingly enlarged in diameter, which leads to constructional difficulties could lead.

In such cases, however, several spherical rotors can be used to simplify the process 15 parallel next to or one above the other transversely to the flue gas flow within the flue gas supply line 14 are brought to the arrangement.

During operation, the raw gas becomes the flow through the raw gas line 14 Spherical rotor 15 supplied, the speed of which in practice, for example, about one Revolutions per minute. The old dust or dust fed to the rotor (s) any additive particles that may also be present are discharged through the shaft 17 to the individual dust gas filters 1 - 4, in which the particles are located the filter, which is acted upon from the outside in, elements 9 as Put down the pre-filter. The in Adhesive primary fine dust particles additionally carried along with the smoke gases, until the filter surfaces are cleaned due to an increase in flow resistance is required.

The dust that is loosened during cleaning sinks to the bottom and is fed to the dust conveying device 12, arrives again at its end the spherical rotor 15, optionally together with additionally added additive particles, e.g. from the feeder 16, and is then fed back to the dust gas filters 1 - 4. At the start of operation, suitable foreign dust or possibly existing dust can be added to the flue gas Old dust can be added to prevent clogging from the start when the system is started up to be able to avoid the filter elements.

The total amount of particles circulating within the system in the retracted state is limited by the removal of a partial amount at a suitable point. In the example shown, the partial quantity of particles is removed by that coarser or in an edge area in the flue gas flow particles behind the spherical rotor 15 sink down in the shaft 17 and then through a removal device 19 will be held. It is possible to control the withdrawal amount through a rear the spherical rotor 15 arranged adjustable steering device, for Example of influencing a guide surface 20, in order to thereby influence the Allow the amount of particles to settle at a desired level. So it will be a stable equilibrium with regard to the total amount in circulation, despite constant newly added particles achieved.

Starting from the spherical rotor 15, the shaft 17 expands, and so does this Extension forms a vortex chamber in which the dust agglomeration and the meeting of additives with any harmful gases is favored by the fact that the particles hike through this area upwards according to their different sink rates, sometimes stay at a certain height distance for a certain time or through vortices present in the flow return downwards.

Coarser particles falling back from the shaft 17 to the rotor 15 become crushed again by the balls in the rotor and can then be removed from the flue gas flow be transported away again in order to act as a pre-filter on the filter elements within the dust gas filter 1 - 4 and thereby the increase in the flow resistance to reduce due to their particle size and possibly harmful gases opportunity to give, to which also adhering to the filter elements previously crushed To attach additive particles, so that cheap Requirements for the noxious gas sorption are created.

To reduce deposits in the shaft 17, for example Avoid flue gas velocities due to partial load operation, if necessary all walls of the connecting channel between the rotor area and the individual Filters inclined so far that there is no dust deposits can form. If necessary, shakers or vibrators can also be used brought.

Claims (7)

Claims 1. Dust gas filter, its with the lower dust collecting fuselage and housing provided with dust removal through a perforated partition into one of the filter elements receiving dedusting space and a clean gas space is divided, and in which by periodic cleaning of the filter elements by means of countercurrent flushing and / or Shaking of dust in the lower dust collection hull and for example for noxious gas sorption added additives are partially fed back into the filter in the circuit, thereby characterized in that using several, connected in parallel in a known manner Dust gas filter (1-4) at their lower dust discharge a common dust conveyor (12) is connected, the outlet of which into one in the dust gas supply line (14) arranged transversely to the direction of flow, rotatable spherical rotor (15) opens, to which a shaft (17) with a to the dust gas filters (1-4) leading distribution line (18), and in the overall system to a suitable one Place a decrease for a particle subset, creating a stable one Limitation of the total amount of particles fed to the filters is ensured. 2. Dust gas filter according to claim 1, characterized in that for Limitation of the total amount of particles fed back into the filter in the circuit behind the rotor, parallel to this, a conveyor device that removes the dust particles is arranged with discharge lock. 3. Dust gas filter according to claim 1, characterized in that for Limitation of the total amount of particles fed to the filters in the circuit or several subsets from the area of the dust conveying device (12). or from one or more of the dust funnels under the individual filters is removed. 4. Dust gas filter according to claim 1 and one of claims 2 and 3 and characterized in that the downstream of the spherical rotor (15) in the direction of flow Shaft (17) widens vertically or inclined upwards. 5. Dust gas filter according to claim 1, 2 and 4, characterized in that that in the area between the spherical rotor (15) and the shaft (17) an adjustable Guide device (20) is arranged. 6. Dust gas filter according to one of claims 1 to 5, characterized in that that the common dust conveying device (12) in front of the spherical rotor (15) is fed (16) of pollutant gas-binding additives is assigned. 7. Dust gas filter according to one of claims 1 to 6, characterized in that that the dust gas supply line (14) several Xugelrotoren (15) parallel to one another are arranged transversely to the dust gas flow.