DE202016100476U1 - filtering device - Google Patents

Abstract

Filter device for gases, which has a housing (5) with a built-in gas-permeable filter arrangement (9) for the retention of solid and liquid gas constituents, in particular condensates, characterized in that the filter arrangement (9) has a plurality of filter elements (11, 12) flowed through in succession. wherein a filter element (11) for aqueous substances and another filter element (12) for oily substances is provided.

Description

The invention relates to a filter device having the features in the preamble of the main claim.

From practice filtering devices for gases in different designs are known. They serve e.g. for filtering and separating particles from a flue gas stream, which is then subjected to gas analysis. Dust and other solid particles are easier to filter out and deposit. With liquid gas components, in particular condensates, this is more difficult and is not or not achieved satisfactorily.

It is an object of the present invention to provide an improved filter device for gases.

The invention solves this problem with the features in the main claim. The arrangement of different and successively flowed through filter elements for aqueous and oily substances has the advantage that the unfavorable for subsequent gas analysis or other purposes liquid gas components can be filtered out and deposited with high security. Solid particles, in particular dusts, are in any case retained by the filter elements. The separation of the filter function for aqueous and oily substances on different filter elements increases the efficiency.

The arrangement of the filter element for oily substances, in particular liquid hydrocarbons, behind the filter element for aqueous substances is favorable for the filter efficiency. The aqueous substances are first separated and can be removed as condensate from the dirty space of the filter chamber via a preferably here arranged bypass. The filter element for oily substances can thereby act more effectively and can be optimally designed for various oily substances. This can preferably be done by means of an oil-repellent coating on the filter body. Conveniently, the design of the filter elements as semipermeable filter membranes. The filter element for oily substances is particularly suitable for the types of substances specified in the dependent claim.

For the filter efficiency and for handling purposes, in particular for a simple filter replacement, it is advantageous if the filter elements are arranged one above the other in the housing and supported by a support device. A flat, preferably circular disc shape and a parallel arrangement of the filter elements and the connecting plane of the housing parts are advantageous. After removal of the lid and thereby dissolved support means, the filter assembly is open and can be easily maintained or replaced.

In an independent inventive concept, a joint arrangement of the connections for inflow, outflow and bypass of the gas is provided on one side of the multi-part housing, preferably at the bottom of the base. An integrated in the housing meander system can provide for the meandering gas flow through the housing parts from the inflow through the filter assembly to drain. The meander system can be combined with the support device so that the functions can be optimally matched to one another.

In the subclaims further advantageous embodiments of the invention are given.

The invention is illustrated by way of example and schematically in the drawings. In detail show:

1 a filter device following a flue gas generator, a gas analyzer and a gas outlet,

2 and 3 a perspective view and a rear view of the closed filter device,

4 FIG. 3: an exploded perspective view of the filter device and its components, FIG.

5 a perspective front view of a housing cover and

6 a partially sectioned side view of the housing of the filter device with filter assembly, support means and Mäandersystem and connections.

The invention relates to a filter device ( 1 ) for gases, in particular flue gases. The filter device ( 1 ) can be sent to an analyzer ( 3 ) for the gas by means of a conduit ( 4 ) or such an analysis device ( 3 ).

The filter device ( 1 ) has a housing ( 5 ) with a gas-permeable filter arrangement incorporated therein ( 9 ) for the retention of solid and liquid gas components, in particular condensates on. The filter arrangement ( 9 ) is in an inner filter chamber ( 14 ) of the housing ( 5 ) arranged.

The housing ( 5 ) has several, in particular two, housing parts ( 6 . 7 ), which are connected by a detachable connection ( 8th ), preferably a screw connection, are connected to each other. The filter arrangement ( 9 ) is between the closed Housing parts ( 6 . 7 ) arranged. It preferably has a flat disk-like shape and is parallel to the connecting plane of the housing parts ( 6 . 7 ) arranged. The housing ( 5 ) and its parts ( 6 . 7 ) preferably have a circular or cylindrical shape in plan view. Alternatively, a prismatic training is possible. The filter arrangement ( 9 ) is aligned transversely to the cylinder axis and is flowed through axially.

The filter arrangement ( 9 ) has a plurality of successively flowed through filter elements ( 11 . 12 ) on. A filter element ( 11 ) is for aqueous substances and another filter element ( 12 ) is intended for oily substances or liquid hydrocarbons. The filter arrangement ( 9 ), the shown two filter elements ( 11 . 12 ) exhibit. It can also contain additional filter elements.

The filter element ( 12 ) for oily substances is in the preferred axial flow direction ( 32 ) behind the filter element ( 11 ) are arranged for the aqueous substances.

One or both filter elements ( 11 . 12 ) are preferably formed as a semipermeable filter membranes. Alternatively, another embodiment is possible. The filter element ( 12 ) for oily substances, preferably in the form of a filter membrane, is provided with an oil-repellent coating. The filter element ( 12 ) for oily substances is particularly suitable for low-viscosity hydrocarbons. It is preferably designed for the retention of the following oily substances: bitumen, gas oil, kerosene, light gasoline, heavy gasoline, mineral oil, petroleum, silicone oil, lubricating oil and various synthetic oils.

The filter elements ( 11 . 12 ) are plan on each other in the housing ( 5 ) and by means of a support device ( 10 ) supported. They have a flat disc shape, which is preferably circular. 4 shows the filter arrangement ( 9 ) and their components in an exploded view. In 6 is the filter arrangement ( 9 ) in the filter chamber ( 14 ) shown in a broken view.

The housing ( 5 ) of the filter device ( 1 ) can by means of a holder ( 33 ) at a suitable location, for example, be arranged on a cabinet. 2 shows the case ( 5 ) in a perspective front view. In 3 is the associated rear view according to arrow II of 2 shown.

The filter device ( 1 ) has connections for the inflow ( 17 ), Outflow ( 18 ) and a bypass ( 19 ) of the gas. The connections are according to 3 and 6 together on one side of the multi-part housing ( 5 ), preferably in the floor area.

The housing parts ( 6 . 7 ) are preferably as a basis ( 6 ) with connection to the holder ( 33 ) and as an attached lid ( 7 ) educated. The connections ( 17 . 18 . 19 ) are in the preferred embodiment at the base ( 6 ), in particular at the bottom ( 22 ). Are eg below the angled holder ( 33 ) arranged. The lid ( 7 ) is freely accessible from the front and can be disconnected ( 8th ) are removed.

As 6 illustrated in a partially broken cross section, divides the filter assembly ( 9 ) the filter chamber ( 14 ) in a dirt room ( 15 ) and a clean room ( 16 ). The inflow ( 17 ) and the bypass ( 19 ) are with the dirt room ( 15 ) connected. Through the bypass ( 19 ) on the filter elements ( 11 . 12 ) separated liquid aqueous and oily substances, in particular condensate, and solid particles are removed.

The clean room ( 16 ) is with the outflow ( 18 ) for the filtered gas. In the housing ( 5 ) is a meander system ( 20 ) for the gas flow through the housing parts ( 6 . 7 ) from the inflow ( 17 ) to the outflow ( 18 ) integrated. 6 clarifies the meander system ( 20 ), which with the support device ( 10 ) cooperates.

The filter arrangement ( 9 ) is according to 4 and 6 with the housing open ( 5 ) and removed cover ( 7 ) accessible from the front. When the lid is removed, the support device ( 10 ) open. When the housing is closed ( 5 ), the filter arrangement ( 9 ) in the filter chamber ( 14 ) between the housing parts ( 6 . 7 ) and with the support device ( 10 ) clamped. The support device ( 10 ) has cooperating support elements ( 13 . 23 . 28 . 29 ) on the housing parts ( 6 . 7 ) on.

The training of the base ( 6 is off 4 and 6 seen. A support element ( 23 ) is designed as a ring-like support base, which in the axial direction or flow direction ( 32 ) from the ground ( 22 ) the base ( 6 ) protrudes. The support base ( 29 ) preferably has a ring-shaped closed shape. It surrounds the ground area with the inflow ( 17 ) and the bypass ( 19 ).

At the base ( 6 ) is also an annular guide flange ( 25 ), the outside of the support base ( 23 ) surrounds. The guide flange ( 25 ) also has a preferred closed ring shape. It can alternatively be broken in places. The guide flange ( 25 ) protrudes in the axial direction over the support base ( 23 ). The dirt room ( 15 ) of the filter chamber ( 14 ) is by the Support base ( 23 ), the ground ( 22 ) and on the support base ( 23 ) resting filter arrangement ( 9 ) educated.

Between the guide flange ( 25 ) and the surrounding base region, a groove ( 24 ) for a sealing element ( 21 ), preferably a sealing ring, be arranged. Between the support base ( 23 ) and the guide flange ( 25 ) can also be a groove with a sealing element ( 21 ) according to 6 are located.

The lid ( 7 ) is in 4 . 5 and 6 shown. The meander system ( 20 ) is on the lid ( 7 ) and acts with the drain ( 18 ) at the base ( 6 ) together.

A support element ( 13 ) is designed as a support screen and is in the flow direction ( 32 ) behind the filter elements ( 11 . 12 ) arranged. The support screen ( 13 ) can the same disc-like and preferably circular shape as the filter elements ( 11 . 12 ) exhibit.

On the lid ( 7 ) is a preferably central support element ( 28 ) formed as a thin pin, which from the ground ( 27 ) projects axially and the support screen ( 13 ) is centrally supported. The pin ( 28 ) is of a supporting element designed as a support flange ( 29 ) surrounded by a distance, which also from the ground ( 27 ) projects axially. The ring-like support flange ( 29 ) is preferably concentric with the housing axis and the journal ( 28 ) arranged. The support flange ( 29 ) forms together with the lid bottom ( 27 ) the clean room ( 16 ) of the filter chamber ( 14 ).

The support flange ( 29 ) is on the outside of a groove ( 31 ) in the lid ( 7 ) surround. He points accordingly 5 and 6 one or more transverse or radial passages ( 30 ), which are at the groove ( 31 ) and this with the clean room ( 16 ) connect.

As 6 clarifies, the guide flange ( 25 ) the base ( 6 ) axially into the groove ( 31 ) and is axially spaced from the groove bottom a piece. He also overlaps the support flange in the axial direction a bit ( 29 ) on the lid ( 7 ). The passage ( 30 ) remains open.

The meander system ( 20 ) indicates said passage ( 30 ) and one or more passage openings ( 26 ) on the front side of the guide flange ( 25 ) on. The one or more passage openings ( 26 ) are with the drain ( 18 ) at the base floor ( 22 ) connected by a flange-internal channel. In the circumferential direction, the passage or passages ( 30 ) and the passage opening (s) ( 26 ) to each other. The at the filter assembly ( 9 ) purified gas flow must thereby be in the Mäandersystem ( 20 ) take a meandering path until they leave the clean room ( 16 ) to the outlet ( 18 ). The meander system ( 20 ) can form a kind of labyrinth seal.

The bypass ( 19 ) can be locked. When the bypass is open ( 19 ) flows a part of the gas flow from the inflow ( 17 ) through the bypass ( 19 ) and another part through the filter arrangement ( 9 ) and the outflow ( 18 ). Due to the reduced flow cross sections and the meander system ( 20 ), the flow rate through the drain ( 18 ) be significantly lower than through the bypass ( 19 ). When the bypass ( 19 ) is closed or narrowed, a larger flow fraction or the entire gas flow through the filter assembly ( 9 ) and the outflow ( 18 ).

At the in 1 shown arrangement of the filter device ( 1 ) is the outflow ( 18 ) by means of a line ( 4 ) with an analysis device ( 3 ) connected to the gas. The analysis device ( 3 ), for example, can analyze the gas for its constituents, for example, the content of carbon monoxide, nitrogen oxides or the like. This is especially important for the analysis of smoke and process gases. In another embodiment, other gas properties may be analyzed, eg, the calorific value or the like.

The bypass ( 19 ) can via a line ( 4 ) with a gas outlet ( 34 ). This can be designed, for example, as a torch or as an outlet pipe into the environment. By means of the permanent or temporary gas analysis can be decided by a suitable controller, whether the exhaust gas may be discharged into the environment or not and whether possibly a post-treatment of the gas, in particular exhaust gas is required.

The inflow ( 17 ) is with a gas supplier ( 2 ) connected. The gas supplier ( 2 ) can, for example, supply a process gas, in particular generate. It can also be a smoke gas generator, for example. Alternatively, other training is possible. The gas supplier ( 2 ) can with the inflow ( 17 ) by means of a line ( 4 ) directly or according to 1 be connected via intermediate devices.

Variations of the embodiments shown and described are possible in various ways. In particular, the features of the above-described embodiment and of the variants mentioned can be combined with one another in any desired manner and, if appropriate, interchanged.

The structural design of the housing ( 5 ) and its parts may vary. The shape of the housing ( 5 ), the housing parts ( 6 . 7 ), the supporting elements ( 13 . 23 . 28 . 29 ) and the filter arrangement ( 9 ) may differ from the circular shape shown and may for example be prismatic or have another, in particular oval, rounding.

LIST OF REFERENCE NUMBERS

1

 filtering device

2

 Gas supplier, smoke gas generator

3

 analyzer

4

 management

5

 casing

6

 Housing part, base

7

 Housing part, cover

8th

 Connection, screw connection

9

 A filter assembly

10

 support means

11

 Filter element, filter membrane for water

12

 Filter element, filter membrane for oils

13

 Support element, support screen

14

 filter chamber

15

 Chamber area, dirt room

16

 Chamber area, clean room

17

 Inflow, connection

18

 Drain, connection

19

 Bypass, connection

20

 meander

21

 Seal, sealing ring

22

 Bottom of base

23

 Support element, support base

24

 groove

25

 Guide flange, ring flange

26

 Port

27

 Bottom of lid

28

 Support element, support pin

29

 Support element, support flange

30

 passage

31

 groove

32

 flow direction

33

 holder

34

 gas discharge

Claims (21)

Filter device for gases containing a housing ( 5 ) with a built-in gas-permeable filter arrangement ( 9 ) for the retention of solid and liquid gas constituents, in particular condensates, characterized in that the filter arrangement ( 9 ) several successively flowed through filter elements ( 11 . 12 ), wherein a filter element ( 11 ) for aqueous substances and another filter element ( 12 ) is provided for oily substances. Filter device according to claim 1, characterized in that the filter element ( 12 ) for oily substances in the flow direction ( 32 ) behind the filter element ( 11 ) is arranged for aqueous substances. Filter device according to claim 1 or 2, characterized in that the filter elements ( 11 . 12 ) are formed as semipermeable filter membranes. Filter device according to claim 1, 2 or 3, characterized in that the filter element ( 12 ), in particular filter membrane, has an oil-repellent coating for oily substances. Filter device according to one of the preceding claims, characterized in that the filter element ( 12 ), in particular the filter membrane, for oily substances for the retention of particular bitumen, gas oil, kerosene, light gasoline, heavy gasoline, mineral oil, petroleum, silicone oil, lubricating oil and synthetic oils is designed. Filter device according to one of the preceding claims, characterized in that the filter elements ( 11 . 12 ) lying on top of each other in the housing ( 5 ) and supported ( 10 ) are. Filter device according to one of the preceding claims, characterized in that the filter elements ( 11 . 12 ) have a flat, preferably circular, disc shape. Filter device according to the preamble of claim 1 or any one of claims 1 to 7, characterized in that the filter device ( 1 ) Connections for inflow ( 17 ), Outflow ( 18 ) and a bypass ( 19 ) of the gas, the connections being common on one side of the multi-part ( 6 . 7 ) Housing ( 5 ) are arranged and the housing ( 5 ) an integrated meander system ( 20 ) for the gas flow through the housing parts ( 6 . 7 ) from the inflow ( 17 ) to the outflow ( 18 ) as well as through the central housing ( 5 ) arranged filter arrangement ( 9 ) with superimposed filter elements ( 11 . 12 ) having. Filter device according to one of the preceding claims, characterized in that the filter device ( 1 ) a multi-part ( 6 . 7 ) Casing ( 5 ) with an internal filter chamber ( 14 ) and a support device ( 10 ) for the filter arrangement ( 9 ), wherein the filter arrangement ( 9 ) at the junction between the housing parts ( 6 . 7 ) and with the housing open ( 5 ) is accessible. Filter device according to one of the preceding claims, characterized in that the filter arrangement ( 9 ) parallel to the connection plane of the housing parts ( 6 . 7 ) and in the filter chamber ( 14 ) between cooperating support elements ( 13 . 23 . 28 . 29 ) on the housing parts ( 6 . 7 ) is clamped. Filter device according to one of the preceding claims, characterized in that the housing parts ( 6 . 7 ) by a detachable connection ( 8th ), in particular screw, are connected to each other. Filter device according to one of the preceding claims, characterized in that the housing parts ( 6 . 7 ) have a round, in particular circular shape. Filter device according to one of the preceding claims, characterized in that a housing part ( 6 ) formed as a base and with a holder ( 33 ), the connections ( 17 . 18 . 19 ) for inflow, outflow and a bypass of the gas common ground ( 22 ) the base ( 6 ) are arranged. Filter device according to one of the preceding claims, characterized in that a housing part ( 7 ) is designed as a lid, wherein the Mäandersystem ( 20 ) on the lid ( 7 ) and with the outflow ( 18 ) at the base ( 6 ) cooperates. Filter device according to one of the preceding claims, characterized in that a support element ( 13 ) formed as a support screen and in the flow direction ( 32 ) behind the filter elements ( 11 . 12 ) is arranged. Filter device according to one of the preceding claims, characterized in that on the lid ( 7 ) a support element ( 28 ) as a pin and a surrounding support element ( 29 ) is designed as a support flange, which from a bottom ( 27 ) stand out. Filtering device according to one of the preceding claims, characterized in that (at the base 6 ) a support element ( 23 ) formed as a ring-like support base and the outside of an annular guide flange ( 25 ) for the filter arrangement ( 9 ) and the support screen ( 13 ) is trained. Filter device according to one of the preceding claims, characterized in that the guide flange ( 25 ) axially over the support base ( 23 ) and laterally on the support flange ( 29 ) of the lid ( 7 ) into a groove ( 31 ) on the lid bottom ( 27 ) attacks. Filter device according to one of the preceding claims, characterized in that the meander system ( 20 ) a passage ( 30 ) on the support flange ( 29 ) of the lid ( 7 ), which at the groove ( 31 ), wherein the axially from the lid bottom ( 27 ) distanced guide flange ( 25 ) at the local end face a passage opening ( 26 ) with the outflow ( 18 ) connected is. Filter device according to one of the preceding claims, characterized in that the filter device ( 1 ) an analysis device ( 3 ) upstream of the gas, the outflow ( 18 ) via a line ( 4 ) with the analysis device ( 3 ) connected is. Filter device according to one of the preceding claims, characterized in that the inflow ( 17 ) of the filter device ( 1 ) with a gas supplier ( 2 ), in particular a flue gas generator, and the bypass ( 19 ) of the filter device ( 1 ) with a gas outlet ( 34 ), in particular a torch, is connected.

Images