DE3930765C1 - Tubular gas filter - has several chambers contg. filter elements in housing, with dust collection bunker under each chamber - Google Patents

Abstract

Tubular filter for gas has several chambers contg. filter elements in a housing, with a dust collection bunker under each chamber and a clean gas duct above each chamber. At the side of the chambers, ducts for distribution of unfiltered gas and for the collection of clean gas are provided. Below these is a conical unfiltered gas inlet and a gas guide arrangement for each chamber with an upper wall section to form a partial gas stream flowing transverse to the chamber and a lower wall section forming a longitudinal gas stream. The wall sections can swivel on a common horizontal shaft. ADVANTAGE - Uniform dust precipitation over the whole filter surface of a chamber.

Description

The invention relates to a bag filter with a several chambers containing bag filter elements partitioned housing, with one located under each chamber Dust collection bunker, with one arranged above each chamber Clean gas channel, with one another on the side next to the chambers arranged channels for the distribution of the raw gas and the Collection of pure gas, with a tapered, slanted downward raw gas inlet and with in Flow direction adjoining gas guide device.

Bag filters of this type are from the German Disclosures 25 36 568 known. The known bag filters have a housing on that across its length in chambers is divided.

Each chamber contains only one row of filter bags over a tapered, sloping downward running raw gas entry. The raw gas strikes partly from below and partly from the side  the filter bags. The application is inevitable uneven, because the diagonally the raw gas entry opposite areas of the filter bags in the "slipstream" of the other filter bags and at least at the beginning of a cleaning period claimed as the raw gas entry immediately neighboring areas. A certain occurs Self-regulation in so far as with increasing Dust load the flow resistance increases and the Raw gas flow to areas with lower flow resistance evades, optimal use of the total installed However, filter area is not possible. Since the Cleaning of the filter bags generally initiated if the measured separately for each chamber Pressure loss exceeds a predetermined value, the best results if the dust cover on the entire filter area of a chamber as evenly as possible is what ultimately only with a uniform as possible Exposure to the raw gas flow can be achieved. It is obvious that this is all the more difficult realize, the larger the individual chambers, d. H., the more filter bags to one to be cleaned Group are summarized. On the other hand, it is big Gas flows required to provide large groups because at given total filter area the investment costs all the more are higher, the more chambers are provided for it.

From the German published documents 28 31 167 and 31 47 636 is known to be the chambers symmetrical to the middle in the longitudinal extension of the housing lying channels for the raw gas and the clean gas are. In the known bag filters, the Cross section of the raw gas channel in the gas flow direction steady ab, while the cross section of the clean gas channel in the same Dimensions increases. By dividing a bag filter in chambers it is possible to effectively remove the filter bags from the to clean off accumulated dust without filter operation to have to interrupt. For this, the filter bags briefly supplied with a purge gas on the clean gas side, whereby the accumulated dust is released and into the Dust collection bunker falls.

An attempt has already been made by hand adjustable or even by means of an automatic adjustable flap in the area of the raw gas inlet influence to take the distribution of the raw gas stream, d. that is Filter hose bundle more from the bottom up or more of to flow from the side. From DE-OS 26 55 275 is also known that for even loading the Filter elements through the gas flow a baffle at the entrance the gas flow in the chamber is arranged so that a Partial gas flow the filter elements in their longitudinal direction and  a second partial gas flow across the filter elements Flows in the longitudinal direction. Finally she teaches DE-GM 17 92 274 the adjustable arrangement of Wall parts of a gas guide device downstream of the Raw gas entry. With these known measures it was possible some improvement can be achieved Uniformity of the loading was - in particular with fluctuating gas throughput - not yet satisfactory.

The invention is therefore based on the object Bag filter of the type mentioned To design gas guiding device so that a uniform Dust deposits over the entire filter surface of a chamber is achieved and that the bag filter as a whole work more effectively.

This object is achieved in connection with the features of the preamble of claim 1 in that that the gas guide of each chamber is an upper one Wall part to form a the bag filter elements of the chamber cross-flowing partial raw gas flow and lower wall part to form a die Bag filter elements of the chamber in the longitudinal direction inflowing partial raw gas stream, the upper and the lower wall part on a common, in Transition area between housing and dust collection bunker horizontally arranged shaft independently of each other are pivotally mounted.

The upper part of the wall extends from the shaft essentially vertically upwards and over the entire length of the chamber and over 20 to 40% of the Length of the filter bags. So that the Inlet cross section for the vertically upward Part of the raw gas flow are affected. The lower Wall part corresponds approximately to that already known Gas guide device through which the inlet cross section of the sloping downward portion of the raw gas flow can be varied. But while this known  Establishment alone besides changing the Entry velocity of the lower partial flow is inevitable also a change in the distribution of the gas flow brought, can with the gas guide device according to the invention the entry speed of the lower and upper Partial flow while maintaining the division of the gas flow be influenced or a targeted change of Distribution of the gas flow can be brought about. So that can you don't just focus on one in operation at a constant Uneven dust occupancy setting raw gas flow react, but above all to irregularities with fluctuating raw gas quantities. So it opens up through the two-part design of the gas guide device according to the invention and the independent adjustability of the two guiding elements new intervention options, both in the sense of a fixed setting during commissioning and a possible later correction by hand as well as in Meaning of permanent monitoring of a parameter and automatic adjustment of setpoint deviations used can be, because the two wall parts are - for example by actuators - down to one Gas passage essentially completely preventing Swiveling closed position.

According to the invention it is advantageous if that Bag filter devices for optional shut-off of the Has gas passage through the individual chambers. This will improve the cleaning behavior of the dust filter reached.

In a further embodiment of the invention is above the upper wall part still a fixed Gas distribution wall arranged with passages, the Passages preferably in vertical rows accordingly the number of rows of tubes are arranged and further in each Row a decreasing cross section from top to bottom exhibit.  

The cleaning behavior of the bag filter can be according to the Invention can be improved in that a - in itself known - device for loading the Filter bags with compressed air pulses is provided.

The subject matter of the invention is explained in more detail below with reference to the exemplary embodiment shown in FIG. 1.

Fig. 1 shows a highly simplified representation of a vertical section through the chamber of a bag filter, the section plane being approximately in the middle of the longitudinal extent of the housing ( 1 ). In this area, the channels for the raw gas ( 4 ) and for the clean gas ( 5 ) have approximately the same cross-section, ie the partition ( 5 a) is located approximately halfway between the upper boundary of the channel for the clean gas ( 5 ) and the lower limit of the channel for the raw gas ( 4 ).

Below the channel ( 4 ) there is (for each chamber) a conically tapered raw gas inlet ( 4 a) with a flap ( 7 ), by means of which the access of the raw gas to the chamber can be blocked.

Above the bundle of filter bags ( 16 ), which are arranged as usual in a floor, there is a clean gas channel ( 3 ) in each chamber, through which the cleaned gas can flow into the channel for the clean gas ( 5 ). This flow path can be blocked by the valve ( 6 ), ie by means of the valve ( 6 ) and flap ( 7 ) the chamber for cleaning the filter bags ( 16 ) can be blocked for the gas passage both on the clean gas side and on the raw gas side.

A device ( 15 ) known per se for applying compressed air pulses to the filter bags ( 16 ) can also be seen in the clean gas channel ( 3 ).

A horizontal shaft ( 10 ) is provided in the transition area between the housing ( 1 ) and the dust collection bunker ( 2 ), around which an upper wall part ( 8 ) and a lower wall part ( 9 ) can be pivoted by means of actuators ( 11 ) and ( 12 ).

Finally, a fixed gas distribution wall ( 13 ) with passages ( 14 ) is arranged above the upper wall part ( 8 ).

The gas flow is indicated by arrows.

The wall parts ( 8 ) and ( 9 ) extend over the entire length of a chamber and can be pivoted independently of one another. A flow cross-section between 0 and 100% can thus be offered either to the partial flow diverted upward behind the raw gas inlet ( 4 a) or to the partial flow directed through the dust collection bunker ( 2 ). Accordingly, the bundle of filter bags ( 16 ) can flow from the side only from below or above. In normal operation, these limit settings of the wall parts ( 8 ) and ( 9 ) are not used because this does not result in an even application of the filter surface. Rather, this is achieved in an intermediate position of the wall parts ( 8 ) and ( 9 ) to be determined in each application when the bag filter is retracted and - if desired - by means of a corresponding measuring and control device via the actuators ( 11 ) and ( 12 ) also for changing positions Operating conditions observed.

The limit settings of the wall parts ( 8 ) and ( 9 ) can, however, be advantageous in special cases. So you will shut off the lower passage completely and lead the gas flow 100% past the upper wall part ( 8 ) if, immediately after a cleaning phase, the sinking of the dust removed from the hoses into the dust collection bunker should not be hindered by a gas flow directed from the bottom upwards . On the other hand, it may be advisable to completely block the upper passage and temporarily only pass the gas flow past the lower wall part ( 9 ) if it is combustible dusts that can be set on fire by glowing particles that occur briefly in the gas flow. Since the latter are usually coarse-grained, they can be separated over the dust collector bunker on the long way before the gas flow reaches the filter bags.

With the wall parts ( 8 ) and ( 9 ) to be arranged in accordance with the invention and their intended use, it is, above all, possible to achieve an exposure to the crude gas stream which is substantially uniform over the entire filter surface of a chamber, which leads to an essentially equally uniform dust deposition, with which the desired optimal use of the filter area of a chamber is achieved between two cleaning phases. For a given quantity of raw gas and a prescribed degree of dedusting, bag filters can be designed in which the total costs (investment and operation) are extremely cheap.

Claims (6)

1. Bag filter with a housing ( 1 ) divided into several chambers containing bag filter elements ( 16 ), with a dust collector ( 2 ) arranged under each chamber, with a clean gas channel ( 3 ) arranged above each chamber, with channels for the Distribution of the raw gas ( 4 ) and the collection of the clean gas ( 5 ), with a conically tapered, sloping downward raw gas inlet ( 4 a) and with a gas guide device adjoining it in the flow direction, characterized in that the gas guide device of each chamber has an upper wall part ( 8 ) to form a partial raw gas flow flowing transversely to the bag filter elements ( 16 ) of the chamber and a lower wall part ( 9 ) to form a partial raw gas flow flowing in the longitudinal direction to the bag filter elements ( 16 ) of the chamber, the upper ( 8 ) and the lower ( 9 ) Wall part on a common, in the transition area between n The housing ( 1 ) and dust collection hopper ( 2 ) have horizontally arranged shafts ( 10 ) which are pivotably mounted independently of one another. 2. Bag filter according to claim 1, characterized in that it is equipped with devices ( 6, 7 ) for optionally blocking the gas passage through the individual chambers. 3. Bag filter according to one of claims 1 to 2, characterized in that a fixed gas distribution wall ( 13 ) with passages ( 14 ) is arranged above the upper wall part ( 8 ). 4. Bag filter according to claim 3, characterized in that the passages ( 14 ) are arranged in vertical rows corresponding to the number of rows of tubes. 5. Bag filter according to claim 4, characterized in that the passages ( 14 ) in each row have a decreasing cross-section from top to bottom. 6. Bag filter according to one of claims 1 to 5, characterized in that a device ( 15 ) for supplying the filter bags ( 16 ) with compressed air pulses is provided.