NL1041872B1 - Device and method for filtering a contamination from a liquid, also a method for regenerating such a device - Google Patents

Abstract

Device for filtering a contamination from a liquid, the device comprising: a housing provided with a first through-flow opening suitable for passage of a liquid and a second through-flow opening suitable for passage of a liquid; a filter placed in the housing between the first flow opening and the second flow opening and suitable for filtering a contamination from a liquid; and compression means suitable for compressing the filter, characterized in that the compression means comprise a first plate movable in the housing, which first plate is suitable for exerting pressure on the filter and is provided with perforations suitable for passing a liquid . Also a method for filtering a contamination from a liquid by means of such a device, the method comprising: allowing the liquid to be filtered to flow through the first through-flow opening into the housing; flowing fluid to be filtered through the filter in a direction going from the first through-flow opening to the second through-flow opening; and allowing filtered liquid to flow through the second through-flow opening out of the housing, characterized in that the filter is compressed by exerting pressure on the filter by means of a first plate provided for this purpose in the housing, which first plate is provided with perforations suitable for passage of a liquid. Furthermore, method for regenerating such a device.

Description

Device and method for filtering a contamination from a liquid, also a method for regenerating such a device

FIELD OF THE INVENTION

The invention relates to a device for filtering a contamination from a liquid, the device comprising: a housing provided with a first through-flow opening suitable for passage of a liquid and a second through-flow opening suitable for passage of a liquid; a filter placed in the housing between the first flow opening and the second flow opening and suitable for filtering a contamination from a liquid; and compressing means suitable for compressing the filter.

The invention also relates to a method for filtering a contamination from a liquid by means of such a device, the method comprising: allowing the liquid to be filtered to flow through the first through-flow opening into the housing; flowing fluid to be filtered through the filter in a direction going from the first through-flow opening to the second through-flow opening; and allowing filtered liquid to flow out of the housing through the second flow opening.

The invention also relates to a method for regenerating such a device, the method comprising: flowing flushing liquid through the second through-flow opening into the housing; flowing flushing fluid through the filter in a direction going from the second through-flow opening to the first through-flow opening; and allowing flushing liquid to flow out of the housing through the first through-flow opening.

BACKGROUND OF THE INVENTION

The present applicant is specialized in the removal of contaminants from relatively large quantities of water, such as in soil remediation, in the after-treatment of waste water for discharge or reuse, or in the de-ironing of (pumped up groundwater).

In the de-ironing of (pumped-up ground water), dissolved divalent iron [Fe2 +] is oxidized by air / oxygen to trivalent iron [Fe3 +] that precipitates / flocculates as Fe (OH) 3 or Fe2 O3. The water is then filtered, which is now done through a sand filter. A sand filter can be regenerated by means of water with air bubbles in counterflow, a straw filter is not regenerated, but the straw is transported to a landfill site after use The disadvantage of using a sand filter is mainly the large weight of the on and off Sand to be fed The disadvantage of using a straw filter is the high cost of dumping the polluted straw.

The present invention now provides an improved solution for removing contaminants from relatively large amounts of water, in particular for filtering precipitated / flocculated Fe (OH) 3 or Fe 2 O 3 from water, as part of the de-ironing of (pumped-up ground water, which has no disadvantages or at least to a lesser extent, and also has a number of specific advantages of its own, and can also be applied more generally in filtering other contaminants from water or filtering contaminants from other liquids.

Summary of the invention

The invention provides a device according to claim 1, a method according to claim 15 and a method according to claim 25. By exerting pressure on the filter by means of the movable first plate, the filter is compressed and the filtering effect thereof increases. For regenerating the device or the filter, rinsing liquid is allowed to flow through the device or the filter in the reverse direction, the pressure on the filter just decreasing again or completely removed, and filtered out material being flushed out of the filter again. The movement of the first plate is thereby preferably limited by stops provided for this purpose. The compression of the filter during filtering can thus be limited and also the displacement of the first plate during rinsing.

The movable first plate is also provided with at least one first check valve which closes at least one first check valve in at least one first perforation in a first position and allows flow of liquid through the at least one first perforation in a second position in a direction going from the first through-flow opening to the second through-flow opening. The position of the at least one first check valve and hence the flow through the at least one first perforation is dependent on the pressure difference over the first plate. The at least one first check valve is preferably provided with biasing means, for example comprising a spring, which urges the at least one first check valve to the first position. Use can thus be made of liquid to be filtered for building up pressure exerted on the filter by the first plate, wherein the bias in the biasing means determines the pressure difference over the first plate during the filtering.

The movable first plate is preferably also provided with at least one second non-return valve which closes at least one second non-return valve in a first position at least one second perforation and in a second position permits flow of liquid through the at least one second perforation in a direction going from the second through-flow opening to the first through-flow opening. The position of the at least one second check valve and hence the flow through the at least one second perforation is dependent on the pressure difference over the movable first plate. Use can thus be made of rinsing liquid for reducing or removing pressure exerted on the filter by the first plate, wherein the bias in the biasing means determines the pressure difference over the first plate during the rinsing.

The filter preferably comprises at least two filter layers, each suitable for filtering a contamination from a liquid and having substantially different filter properties. For example, filtering can be done in steps from coarse to fine, which increases the flow and effectiveness of the filter. More preferably, the filter also comprises at least one distribution layer suitable for distributing a liquid stream, for example, located between the first plate and the filter or between two filter layers, which further increases the flow and effectiveness of the filter.

Brief description of the drawings

The invention is explained in more detail below with reference to exemplary embodiments. In the drawings, more or less schematically: figure 1 shows a section of a device according to the invention; and - figure 2 shows a detail thereof.

Embodiments

The device (1) shown in the figures comprises a housing (2) provided with a first through-flow opening (3) and a second through-flow opening (4), a filter (5) placed in the housing (2) between the first through-flow opening (3) and the second flow-through opening (4), and compression means (6) comprising a first plate (8) movable in the housing (2) provided with perforations (9, 10) with which pressure can be exerted on the filter (5). In the example given, the first plate (8) forms part of a piston (7) which can move in the housing (2).

The first plate (8) is also provided with, in the given example, three, first check valves (11) which each in a first position close a number of, in the given example two, first perforations (9) and in a second position (such as shown) to allow flow (B) of liquid through the first perforations (9) in a direction going from the first flow opening (3) to the second flow opening (4). The first check valves (11) are each provided with biasing means (12), comprising in the given example a spring (13), which urges a first check valve (11) to the first position. The stroke of a first check valve (11) is thereby limited by a stop (14). If liquid to be filtered is introduced (A) into the housing (2) via the first through-flow opening (3), a pressure difference will be built up over the first plate (8). The first check valves (11) will only open and allow liquid to pass at a given minimum pressure difference over the first plate (8) which is determined by the bias of the biasing means (12) or the springs (13). Thus, in addition to the own weight of the piston (7) in the given example, the pressure of the inflowing liquid (A) to be filtered is used to cause the first plate (8) to exert pressure on the filter (5), and is thus no separate provision required. The pressure applied is thereby determined by the bias of the biasing means (12) or the springs (13), in addition to the self-weight of the piston (7) in the given example.

The compression means (6) also comprise a second plate (20), the filter (5) being located between the first plate (8) and the second plate (20). The second plate (20) is provided with third perforations (21) and carries the filter (5). During filtering, liquid will pass through (A) the first flow-through opening (3), via (B) the first perforations (9), through (C) the filter (5), via (D) the third perforations (21), and through (E) the second flow opening (4) flows, with the first check valves (11) open and the second check valves (15) closed. The first plate (8) exerts pressure on the filter (5), the filter (5) being thereby compressed between the first plate (8) and the second plate (20) so that the density of the filter (5) and the filtering effect increase.

The first plate (8) is also provided with, in the given example, two, second check valves (15) which each in a first position close a number of, in the given example, one, second perforations (10) and in a second position (such as shown) to allow flow (I) of liquid through the second perforations (10) in a direction going from the second flow opening (4) to the first flow opening (3). During the regeneration of the device (1) or the filter (5), rinsing liquid flows through (F) the second flow-through opening (4), via (G) the third perforations (21), through (FI) the filter (5), via (I) the second perforations (10), and through (J) the first flow opening (3), wherein the first check valves (11) are closed and the second check valves (15) are open. The first plate (8) exerts no or less pressure on the filter (5), whereby the density of the filter (5) decreases and the filter (5) can be flushed out.

In another embodiment of a device according to the invention, the second non-return valves can also be provided with biasing means, for example spring springs, which urge the second non-return valves to a closed position. When regenerating the device or the filter, the second non-return valves will only open and allow flushing liquid to pass at a given minimum pressure difference over the first plate (8) which is determined by the bias of the biasing means. For example, the self-weight of the piston (7) can be compensated.

In the given example, the filter (5) is made up of three filter layers (16, 17, 18), the filter layer (16) closest to the first through-flow opening (3) being the most coarse and the filter layer (18) closest to the second flow opening (4) is the finest, and four distribution layers (19) for constantly distributing the liquid flow. The filter layers (16, 17, 18) have a more dense structure and consist, for example, of packed loose fibers of, for example, cotton, glass wool or polypropylene, the distribution layers (19) have a more open structure and consist, for example, of cross-linked / fused / interconnected fibers from HDPP for example. But other materials such as wool, rock wool, foam rubber, polyether foam, polyurethane foam, spongy material, PLA, PEN, HDPE, PE, PP, PVDF, PTFE, paper or felt can be used.

It will be clear that the invention is not limited to the exemplary embodiments given, but that all kinds of variants which are obvious to a person skilled in the art are possible within the scope of the invention. It is essential that pressure be exerted on the filter during filtering, and for reducing or releasing pressure exerted by the self-weight of the first plate or piston on the filter during flushing, use is made of (the pressure in the inflowing stream). ) liquid to be filtered or (the pressure in the incoming) flushing liquid.

Claims (33)

Device (1) for filtering a contamination from a liquid, the device comprising: - a housing (2) provided with a first flow opening (3) suitable for the passage (A, J) of a liquid and a second flow opening (4) suitable for the passage (E, F) of a liquid; - a filter (5) placed in the housing between the first through-flow opening and the second through-flow opening and suitable for filtering a contamination from a liquid; and - compression means (6) suitable for compressing the filter, characterized in that the compression means comprise a first plate (8) movable in the housing, which first plate is suitable for exerting pressure on the filter and is provided with perforations (9, 10) suitable for the passage (B, I) of a liquid. Device according to claim 1, characterized in that the first plate forms part of a piston (7) movable in the housing. Device as claimed in claim 1 or 2, characterized in that the device also comprises a first stop suitable for limiting the movement of the first plate in the direction of the first through-flow opening. Device as claimed in any of the foregoing claims, characterized in that the device also comprises a second stop suitable for limiting the movement of the first plate in the direction of the second through-flow opening. A device according to any one of the preceding claims, characterized in that the device also comprises at least one first check valve (11) which at least one first check valve closes at least one first perforation (9) in a first position and in a second position permits flow (B) of liquid through the at least one first perforation in a direction going from the first through-flow opening to the second through-flow opening. Device according to claim 5, characterized in that the at least one first check valve is provided with biasing means (12), for example comprising a spring (13), which urges the at least one first check valve to the first position. Device according to claim 5 or 6, characterized in that the device also comprises a stop (14) which stop limits the stop of the at least one first non-return valve. Device as claimed in any of the foregoing claims, characterized in that the device also comprises at least one second check valve (15) which at least one second check valve closes at least one second perforation (10) in a first position and in a second position allows flow (I) of a liquid through the at least one second perforation in a direction going from the second flow opening to the first flow opening. Device as claimed in claim 8, characterized in that the at least one second non-return valve is provided with biasing means, for instance comprising a spring, which urges the at least one second non-return valve to the first position. Device as claimed in claim 8 or 9, characterized in that the device also comprises a stop which stop limits the stop of the at least one second non-return valve. Device as claimed in any of the foregoing claims, characterized in that the filter comprises at least two filter layers (16, 17, 18) each suitable for filtering a contamination from a liquid and with substantially different filter properties. Device as claimed in claim 11, characterized in that the filter also comprises at least one distribution layer (19), which distribution layer is located between the at least two filter layers or between the first plate and a filter layer or between the second plate and a filter layer, and is suitable for distributing a liquid stream. Device as claimed in any of the foregoing claims, characterized in that the compression means also comprise a second plate (20) located in the housing, the filter being located between the first plate and the second plate, which second plate is provided with at least one third perforation (21) suitable for the passage (D, G) of a liquid. Device according to claim 13, characterized in that the second plate is suitable for supporting the filter. Method for filtering a contamination from a liquid, by means of a device (1) comprising: a housing (2) provided with a first flow opening (3) suitable for passage of a liquid and a second flow opening (4) suitable for the passage of a liquid; a filter (5) placed in the housing between the first flow-through opening and the second flow-through opening and suitable for filtering a contamination from a liquid; and compression means (6) suitable for compressing the filter, the method comprising: - flowing (A) of liquid to be filtered through the first through-flow opening into the housing; - allowing the liquid to be filtered to flow through the filter (C) in a direction going from the first through-flow opening to the second through-flow opening; and - allowing filtered liquid to flow (E) through the second flow opening out of the housing, characterized in that the filter is compressed by exerting pressure on the filter by means of a first plate (8) provided for this purpose in the housing and movable first plate is provided with perforations (9, 10) suitable for the passage (B, I) of a liquid. Method according to claim 15, characterized in that the first plate is made part of a piston (7) provided for this purpose in the housing. A method according to claim 15 or 16, characterized in that use is made of the own weight of the first plate or the piston to exert pressure on the filter. A method according to any one of claims 15-17, characterized in that pressure is exerted on the first plate by exerting pressure on the filter. 19. Method as claimed in any of the claims 15-18, characterized in that the movement of the first plate in the direction of the second through-flow opening is limited by means of a stop provided for this purpose. A method according to any one of claims 15-18, characterized in that the flow of liquid through at least one first perforation (9) is regulated by means of at least one first check valve (11) provided for this purpose, which at least one check valve in a first closes the at least one first perforation and in a second position allows flow (B) of liquid through the at least one first perforation in a direction going from the first through-flow opening to the second through-flow opening. A method according to claim 20, characterized in that pressure exerted by filtering liquid on the first plate is regulated by means of biasing means (12) provided for this purpose, for example comprising a spring (13), which transfers the at least one first check valve to the first stand. Method according to claim 20 or 21, characterized in that the deflection of the at least one non-return valve is limited by a stop (14) provided for this purpose. A method according to any one of claims 15-22, characterized in that the filter is placed between the first plate and a second plate (20) provided for this purpose in the housing and provided with at least one third perforation (21) suitable for passing a liquid and allowing filtered liquid to flow (D) through the at least one third perforation in a direction going from the first flow opening to the second flow opening. A method according to claim 23, characterized in that the filter is supported by the second plate. A method for regenerating a device (1) for filtering a contamination from a liquid, the device comprising: a housing (2) provided with a first flow opening (3) suitable for passage of a liquid and a second flow opening (4) suitable for passage of a liquid; a filter (5) placed in the housing between the first flow-through opening and the second flow-through opening and suitable for filtering a contamination from a liquid; and compression means (6) suitable for compressing the filter, the method comprising: - flowing (F) of flushing liquid through the second through-flow opening into the housing; - flowing (H) through the filter of flushing liquid in a direction going from the second through-flow opening to the first through-flow opening; and - allowing rinsing liquid to flow (J) through the first through-flow opening out of the housing, characterized in that the filter is placed between a first plate (8) provided for this purpose and movable in the housing, which first plate is provided with perforations (9, 10) suitable for the passage (B, I) of a liquid and a second plate (20) provided for this purpose in the housing provided with at least one third perforation (21) suitable for the passage of a liquid and allowing flushing liquid to flow (G) through the at least one third perforation in a direction going from the second flow opening to the first flow opening and (H) through the filter in a direction going from the second flow opening to the first flow opening and (I) through at least one second flow opening perforation (10) in a direction going from the second flow opening to the first flow opening. Method according to claim 25, characterized in that the first plate is made part of a piston (7) provided for this purpose in the housing. A method according to claim 25 or 26, characterized in that to reduce or eliminate pressure exerted on the filter by the own weight of the first plate or piston, use is made of pressure exerted by flushing liquid on the first plate. Method according to claims 25-27, characterized in that pressure is exerted on the first plate for reducing or relieving pressure on the filter. 29. Method as claimed in any of the claims 25-28, characterized in that the movement of the first plate in the direction of the first flow-through opening is limited by means of a stop provided for this purpose. A method according to any one of claims 25-29, characterized in that the flow of liquid through the at least one second perforation is controlled by means of at least one second check valve (15) provided for this purpose, which at least one second check valve is in a first position closes the at least one second perforation and in a second position allows flow (I) of liquid through the at least one second perforation in a direction going from the second flow opening to the first flow opening. A method according to claim 30, characterized in that pressure exerted by flushing liquid on the first plate is regulated by means of biasing means provided for this purpose, for instance comprising a spring, which urges the at least one second non-return valve to the first position. A method according to claim 30 or 31, characterized in that the deflection of the at least one second non-return valve is limited by means of a stop provided for this purpose. A method according to claim 32, characterized in that the filter is carried by the second plate.