WO2006002638A1

WO2006002638A1 - An apparatus for the separation of dry matter from a fluid

Info

Publication number: WO2006002638A1
Application number: PCT/DK2005/000452
Authority: WO
Inventors: Preben Bøje HANSEN; Peter Stubbe; Hanne Birch; Kirsten Grønning SØRENSEN
Original assignee: Danmarks Tekniske Universitet
Priority date: 2004-07-01
Filing date: 2005-07-01
Publication date: 2006-01-12
Also published as: DK1809401T3; EP1809401B1; US20080035560A1; US7882960B2; EP1809401A1; PL1809401T3; SI1809401T1

Abstract

The invention relates to an apparatus for continuous separation of dry matter from a fluid, comprising an enclosed environment capable of being under vacuum or under positive pressure, in which enclosed environment a number of rollers (1, 3, 4, 4’, 6, 6’, 20, 21, 22, 23) form a chamber which is divided into two or more compartments (12, 13, 24, 27, 25, 26) by filtration means (7, 8, 16, 29, 36, 37, 38, 40), wherein one or more filtrated chambers (9, 10) are placed on the pure side of the filter means. In order to allow for cleaning and/or maintenance of the filtrate chambers, additional filtrate chambers are provided, which are separated from the first filtrate chambers by a wall. One of the filtrate chambers at any time is placed under the filter, while the other filtrate chambers are situated outside the enclosure for maintenance/cleaning.

Description

AN APPARATUS FOR THE SEPARATION OF DRY MATTER FROM A FLUID

The prior art

The invention relates to an apparatus for continuous separation of dry matter from a fluid, comprising an enclosed separation environment capable of being under vacuum or under PSOTIVE pressure, IN WHICH enclosed environment a number of rollers form a chamber which is divided into two or more compart¬ ments by filtration means.

Separation may generally have more purposes. One purpose could be separa¬ tion by a kind of filtration, isolating solids from fluids e.g. by an air filter, purifying air or a gas. Another purpose could be filtration of solid particles from a gas or an air stream for the purpose of gathering the particles for some kind of use, or a combination of both. In other words, some times it is desirable to obtain purified solids, some times it is desirable to obtain purified fluids (i.e. liquids or gases), depending on what end product is wanted, and some times it is desirable to ob¬ tain and use the separated solids as well as the purified fluid.

In this context, fluid is to be understood as a liquid, a gas or a mixture of both.

WO 03/055570 A1 discloses a filtration method and an apparatus by means of a system of rollers. The rollers form a chamber which is divided into two compart¬ ments by means of a filter capable of continuous removal of dry matter from a liquid having a high dry matter content, thereby providing a method and an appa¬ ratus capable of reducing the loss of a liquid from the suspension and, at the same time, obtaining an increased filtration capacity.

The object of the invention The object of the present invention is to ensure that the purified matter still re¬ mains purified, at the same time taking into consideration that it is very important to establish or keep a clean filter area to ensure an effective and adequate con¬ tinuous separation process, and this is achieved according to the invention by an apparatus, wherein each filtrate chamber is configured to be extended by more filtrate chambers which are separated from the filtrate chamber by one or more walls, wherein one of the filtrate chambers at any time is placed under the filter as a collecting part, while the filtrate chambers are situated outside the enclo¬ sure.

This ensures that only the purified fluid gets to a filtrate chamber, from where the purified fluid can be extracted or transported to a new clean environment. This provides the possibility of pressing the separated dry matter, also called the filter cake, in a continuous flow, depending on the rotational speed of the rollers.

The object of the measures according to claims 2-9 will be described in connec- tion with the exemplary embodiments.

The drawing

The invention will now be explained in more detail with reference to the drawing, in which

fig. 1 shows a filtration apparatus where rollers form a closed filtration en¬ vironment which is divided by a filter into a feed chamber where the feed is introduced through an inlet, and a separate filtrate chamber where the filtrate is removed through an outlet,

fig. 2 shows the apparatus,

fig. 3 shows a cross-section along the line Ill-Ill of the system shown in figure 1 ,

fig. 4 shows the apparatus where a support plate, a final guarding filter and the filtrate chamber extend beyond the width of the machine,

fig. 5 shows a cross-section along the line V-V of the system shown in fig. 4,

fig. 6 shows an apparatus as described in figure 1 extended with cham¬ bers enclosed by rollers, in which chambers filter cake is removed by brushing or scraping means, or where cleaning or disinfecting means can act,

fig. 7 shows another embodiment of the apparatus shown in figure 1 using two filtrate chambers in order to utilize a larger part of the length of the filter,

fig. 8 shows a further embodiment of the apparatus shown in figure 7, with the filtrate chamber placed in the centre of the apparatus,

fig. 9 shows an embodiment similar to the system shown in figure 1 , but equipped with a helping band with flaps to help a roller collecting and enclosing a filter cake,

fig. 10 shows an embodiment similar to the apparatus shown in figure 7, extended with extra filters, and

fig. 11 shows an embodiment of the apparatus as shown in figure 1 with a coarser filter.

Description of the exemplary embodiments

In the following, preferred embodiments will be described with reference to the drawing. In order to obtain a method for continuous separation of dry matter from a fluid for the purpose of using the dry matter, the fluid or both for further use, the fluid is led to an enclosed separation environment comprising at least two compart¬ ments 12, 13. These compartments 12, 13 are divided by at least one filtration means 16, 38 for continuous separation, and at least the one filter 16, 38 passes through at least one set of rollers 1 , 6, 3, 4, the rollers 1 , 6, 3, 4 forming part of the enclosure.

In order to ensure that the filtrated matter remains clean or purified, one or more chambers 9 are provided within the enclosed separation environment 12, 13, said chambers 9, which are placed on the pure side of a filter 7, 8, 16, 38, 40, being configured to receive a purified substance of the suspension.

A first embodiment of the apparatus, figure 1 , has a filtration machine where rollers 1 , 2, 3, 4, 5, 6 form a closed filtration environment. The filtration environ¬ ment is divided by a filter 16 formed as an endless belt which is tightened by a roller 17. In the filtration area, a perforated plate 7 supports the filter 16. The fil¬ tration area is divided into a feed chamber 12 where the feed is introduced through an inlet 14, and a filtrate chamber 9 where the filtrate is removed through an outlet 15. The filtrate chamber 9 is formed by an enclosure mounted at the bottom of the support plate 7. An area 13 forms an outer part of the filtrate cham¬ ber 9, where leaked matter around the edges of the support plate 7 or unfiltrated matter from diminutive leaks between the rollers can be collected. The area 13 has no direct contact to the inner part of the filtrate chamber 9, and thereby it is ensured that the filtrate remains clean or purified. A final guarding filter 8 can be inserted into the support plate 7 to ensure an absolute filtration level.

Figures 2 and 3 show the system and a cross-section along the line Ill-Ill of the system described above. Two end plates 18 and 19 close the system at the ends of the rollers 1 , 2, 3, 4, 5, 6 and 17. If the final guarding filter 8 is fouled, it can be displaced through the side of the system to be replaced by a clean filter. The part outside the machine can be cleaned, while the part inside the machine is filtrat¬ ing.

Figures 4 and 5 show the system and a cross-section along the line V-V of the system described with reference to figures 1 and 2 in an embodiment, where the support plate 7 and the final guarding filter 8 are at least twice as wide as the machine, and the filtrate chamber 9 is extended by another filtrate chamber 10 which is separated from the filtrate chamber 9 by a wall 11. At any given time, only one chamber 9, 10 is placed in the machine under the filter 16, while the other chamber 9, 10 is outside the machine for cleaning and/or maintenance. If necessary, more chambers divided by walls could be arranged side by side in line.

In another embodiment, a system described as the system in figure 1 is shown in figure 6 and extended with chambers 24, 27 enclosed by rollers 20, 23, 28. In these chambers filter cake (not shown) is removed by brushes or scrapers 34, 35. The filter cake can be swept away by air flow or flushed by water through in- and outlets 30, 33. A chamber 25, 26 for cleaning or disinfection is enclosed by rollers 21 , 22, 28, where a cleaning or disinfection agent can be circulated through in- and outlets 31 , 32. Besides the original filter 16, the system can be fitted with filters 29, 36, 37 placed on top of each other in order to facilitate the removal of the filter cake when the filters are detached, or in order to obtain a depth filter, which is a surface filter for retaining material at the surface of the filter, leading to a dense layer which restricts the flow towards the filter. A depth filter has a more open structure than a surface filter and allows the retained material to enter the structure of the filter where the material is trapped. This leads to a more open filter cake with a less severe impact on the flow through the filter. However, the filter cake can be more difficult to remove from a depth filter than from the original filter. In a further embodiment of the system shown in figure 6, the inlet opening 31 is used as a feeding means for the supply of the filtrating matter to be filtrated into the chamber 25, from where the filtration matter is transported between two or more filter layers 36, 37 and pressed by the rollers 3, 4, 1 , 6, thereby forming the enclosure 12, 13. The layers of filters hold and convey the filtration matter on its way through the separation environment.

When the filtration matter has been pressed and separated, it is possible to flush the filtration matter, although said filtration matter is positioned and retained be- tween the filters 36, 37. This flushing takes place preferably through the inlet 14 in the feed chamber 12 and out through the outlet 15. This process could be performed as a repetitive process.

The process could also be performed through the lower part of the system using the outlet 32 as an inlet and the filters 16, 29 as retaining filters. Further, the process may be performed as a combination of both of the above-mentioned systems.

When the retaining filters 16, 29, 36, 37 have separated after having passed the rollers 1 , 6, brushes or scrapers 34, 35 remove the filter cakes.

The process could optionally proceed in more following steps thereby repeating the flushing after pressing.

The flushing can be performed with agents with different characteristics, possibly obtained by addition of additives.

A modified embodiment of the original system shown in figure 1 is shown in fig¬ ure 7 and comprises two filtrate chambers 9. In order to utilize a larger part of the length of the filter 7, 38, the filter 7, 38 traverses the filtration area twice, thereby doubling the filtrating length without increasing the length of the filter. In figure 8, a further embodiment based on the same concept shows a system as shown in figure 7, except for the filtrate chamber 9 which is placed in the centre of the machine, and except for the feed chambers 12, which feed chambers 12 are placed above and below the filtrate chamber 9. Thereby the filter cake pro- duced from the filter in the upper chamber can be removed from the filter above the top of the roller 6 before reentering the lower feed chamber.

It is hereby understood that more filtrate chambers could be arranged along the movable filter 38.

An embodiment similar to the system shown in figure 1 is shown in figure 9, where one of the rollers 1 , 6, placed where the filter 16 leaves the enclosure 12, 13, is equipped with a helping band 39 with flaps to help roller 1 , 6 to collect and to enclose the filter cake.

An embodiment similar to the system shown in figure 7 is shown in figure 10, here provided with extra filters 16 to support filter 38 or to give a depth filter ef¬ fect, or to facilitate the removal of the filter cake.

An embodiment of a system as shown in figure 1 is shown in figure 11 where a filter 40 is coarser than the filter 8. Therefore, the filter cake accumulates on top of filter 8, but will be scraped off and transported away by the movable filter 40.

The rollers 1 , 2, 3, 4, 4\ 5, 6, 6', and 17 can be arranged for floating in their lon- gitudinal direction. The floating feature is obtainable in a preferred embodiment by the way the ends of the rollers 1 , 2, 3, 4, 4', 5, 6, 6', and 17 are fixed by seals (not shown), whereby the compression of the rubber in the rollers 1 , 2, 3, 4, 4', 5, 6, 6', and 17, the compression of the seals or a combination thereof give the flexibility. This results in a flexible suspension of the rollers 1 , 2, 3, 4, 4', 5, 6, 6', and 17 as well as an adequate sealing between the rollers 1 , 2, 3, 4, 4', 5, 6, 6', and 17 and the end plates 18, 19 of the system.

It will be appreciated that the apparatus could be configured with several adja¬ cent individually separated enclosures. These enclosures can be arranged as long rollers being divided by a number of plates (N) together forming a number of enclosures (N - 1 ).

As to the apparatus in general, it is possible to ensure a correct tensioning of the moving filter by having separate rotational speed and thereby different tractive effort applied to each of the separate rollers in the moving direction of the filter.

Further, in order to ensure an effective cleaning of the system and the filter or at least a part of the filter, cleaning means are provided. It is possible to clean the filter, for instance by using pyrolysis or by performing a backwash with the clean separated matter. In order to prevent formation of germ, the support filter and/or all the filters could be treated with a disinfecting agent, for instance Hydrogen Peroxide.

Claims

P A T E N T C L A I M S

1. An apparatus for the separation of dry matter from a fluid, comprising an en¬ closed separation environment capable of being under vacuum or under positive pressure, in whch enclosed environment a number of rollers (1 , 3, 4, 4', 6, 6', 20,

21 , 22, 23) form a chamber which is divided into two or more compartments (12, 13, 24, 27, 25, 26) by filtration means (7, 8, 16, 29, 36, 37, 38, 40), and with one or more filtrate chambers (9) placed on the pure side of the filtration means configured to receive a purified substance of the suspension, characterized in that each filtrate chamber (9) is configured to be extended by more filtrate chambers (10) which are separated from the filtrate chamber (9) by one or more walls (11), wherein one of the filtrate chambers (9, 10) at any time is placed un¬ der the filter as a collecting part, while the filtrate chambers (9,10) are situated outside the enclosure.

2. An apparatus according to claim 1 , characterized in that further enclosures (24, 25, 26, 27) are provided to treat the filter (16) with cleaning and/or disinfect¬ ing agents through one or more inlet and/or outlet openings (31 , 32), and com¬ prising chambers (24, 27) for the removal of filter cake by brushing and/or scraping means (34, 35).

3. An apparatus according to claim 1 , characterized in that a movable filter (38) comprises an endless belt passing through the enclosure (12) more than once, thereby traversing the filtration area more than once, thus providing at least a doubling of the filtrating length.

4. An apparatus according to claim 1 , characterized in that a further pair of rollers (4', 6') is introduced between the contacting pair of rollers (1 , 6) and (3, 4) with the movable filter (38) driven around the rollers (4', 6') and with the inlet (14) placed between the movable filter (38) and the rollers (4', 6').

5. An apparatus according to claim 4, characterized in that filtrate chambers (9) are placed on the outside of the movable filter (38) within the enclosure (12, 13).

6. An apparatus according to claim 4, characterized in that filtrate chambers

(9) are placed on the inner side of the movable filter (38) having more than one inlet (14) which inlets are placed on the outside of the movable filter (38) within the enclosure (12, 13).

7. An apparatus according to claims 1-6, characterized in that a helping band

(39) with flaps to enclose and/or collect filter cake is mounted on the roller (1 , 3), placed where the movable filter (16, 38) leaves the enclosure (12, 13).

8. An apparatus according to claims 4-6, characterized in that one or more movable support filters (16) are supplied to support the movable filter (38).

9. An apparatus according to claims 1-8, characterized in that the movable filter (16, 38) is replaced by a movable filter (40), which movable filter (40) is coarser than the filter (8).