WO1988008739A1

WO1988008739A1 - Filter plate

Info

Publication number: WO1988008739A1
Application number: PCT/SE1988/000228
Authority: WO
Inventors: Nils-Åke PERSSON; Klas Ralvert
Original assignee: Hydrotech Nils-Åke Persson Ab
Priority date: 1987-05-04
Filing date: 1988-05-04
Publication date: 1988-11-17
Also published as: SE463698B; AU1711288A; DK538789D0; EP0394236A1; SE8701820D0; SE8701820L; DK538789A

Abstract

A filter plate (1) is described on which a filter cloth (4) is disposed across the whole top side and glued or welded to the outer sides, and which is used for filtering off particles from a liquid. The plate has a large number of apertures (2), each individual aperture area being at most 2.25 cm2. The total free open area of the plate is 70-90 % of the total plate area and the thickness of the plate is at least 5 mm.

Description

FILTER PLATE

The present invention relates to a filter plate on which a filter cloth is disposed and which is used for filtering off solid particles from a liquid.

Filter cloths are today employed in many different applications for separating solid particles from liquids, e.g. in water purification. The filter cloth is often disposed horizontally or freely suspended at an angle.

A big problem in the context is the reduced flow capacity resulting from surface tensions present in the liquid phase and generated on the underside of the filter cloth. In order to break these surface tensions, ribs transversal to the flow direction are often mounted on the underside of the filter cloth. However, this measure does not solve the flow problem in a satisfactory manner. Another serious disadvantage of known filter systems is that the entire cloth must be replaced in case it is damaged, which is a complicated, time-wasting and expensive opera¬ tion because the cloth is usually mounted in a frame.

In the present invention, the above-mentioned short- comings have been obviated by means of an apertured filter plate on which a filter cloth is disposed. The filter cloth is attached to the underlying filter plate, preferably by gluing or welding, along essentially the whole contact surface of the filter cloth with the filter plate. If the filter cloth is damaged, the filter plate apertures coincident with the position of the damage on the cloth can easily be plugged, without necessitating replacement of the entire filter cloth. Such plugging of an aperture reduces the flow capacity by less than 1 per mil for each square meter of the filter surface. Another advantage of the present invention is that the filter plate is easy to mount in a filtering apparatus since the filter plate and the filter cloth form an integral part. The filter plate according to the present invention is characterised in that it has a large number of aper¬ tures, the area of each individual aperture being at most 2.25 cm 2, preferably at most 1 cm2, that the total free open area of the plate is at least 70 % of the total plate area, and that the thickness of the plate is at least 5 mm.

The filter plate according to the invention is mounted horizontally or preferably suspended at an angle. The flow of liquid to be filtrated is supplied to the filter plate from above and preferably at one of the edges of the filter plate when this is mounted at an angle, the liquid flow gradually urging the filtered-off sludge towards the opposite edge, at the same time as purified water flows out of the underside of the filter plate. When the filter cloth has become completely clogg¬ ed, it is sprayed with water from below to clean it. The limited opening areas of the filter plate break . the surface tensions on the underside of the filter cloth, whereby the flow is improved. For practical rea¬ sons, filter plates with an opening area of less than

2 0.25 cm (5 x 5 mm) are not used.

Further characteristic features of the invention will appear from the following description and the de- pendent claims.

A critical feature of the invention is that the

2 area of each aperture is at most 2.25 cm , preferably

2 at most 1 cm . If this area is exceeded, it has n fact surprisingly been found that the flow capacity of tire filter is drastically reduced, instead of being increased, as might have been expected. This is clearly shown by the comparison test described below.

In a preferred embodiment of the invention, the

2 area of each aperture in the filter plate is most 1 cm , the plate has a thickness of 10 mm, the total free open area is about 80 % of the total area, and the apertures are square-shaped with 9 mm sides and 1 mm wide parti- tions between the apertures.

Description of the drawings

Fig. 1 is a view from above of a portion of an embodiment of the filter plate according to the inven- tion. Fig. 2 is a side view of a portion of the filter plate illustrated in Fig. 1.

As is seen from Fig. 1, a filter plate 1 has a large number of square-shaped apertures 2 separated by partitions 3. The filter plate in its entirety is shaped as a rectangle having the dimensions 1200 x

400 mm, and several plate modules can be interconnected to a large assembly. A filter cloth 4 is glued or welded, at 5, across the entire contact surface with the filter plate, the glue or weld being applied to the contact surface on top of the partition walls 3 and the outer sides of the plate. The filter plate is manufactured of plastic material, preferably acrylic plastic, while the filter cloth is manufactured of steel, preferably acidproof steel. The filter cloth preferably has a mesh size of about 20-150 cm and an open area of about 25-50 % of the total area. The thickness of the partitions 3 is 1 mm. The total free open area of the plate is about 80 % of the total area. Tests In a comparison test involving the filtration of waste water from a fish-breeding plant, four different filter plate assemblies, each with the outer dimensions 2400 x 800 mm (4 interconnected filter plates), were used. The filter plate assemblies were referred to as A, B, C and D and had opening areas with the dimensions 9 x 9, 12 x 12, 15 x 15 and 19 x 19 mm, respectively. The width of the filter plate partitions was in all cases 1 mm, and the thickness of the plates appears from the table below. The mesh size of the filter cloth was 80 mm, and the cloth was flushed clean from below during 6 s at intervals of 40 s. The flow through each plate was recorded and is noted in the table below. opening plate thick- flow relative area ness (mm) (1/min) flow (cm2)

filter plate assembly A 0.81 10 1400 1 filter plate assembly B 1.44 13 1000 0.71 filter plate assembly C 2.25 15 700 0.50 filter plate assembly D 3.61 10 550 0.39

As is seen in the table above, the flow capacity of filter plate assembly B was only 71% of the flow capacity of assembly A. Furthermore, the flow capaci¬ ties of assemblies C and D were only 50 % and 39 % respectively, of the flow capacity of assembly A. This shows that a decrease of the opening area of the filter plate in this range results in a notable increase of the flow capacity, and this increase becomes especially

2 evident when the opening area is at most 2.25 cm

(15 x 15 mm) .

Claims

1. Filter plate on which a filter cloth (4) is disposed and which is used for filtering off solid par¬ ticles from a liquid, c h a r a c t e r i s e d in that the plate (1) has a large number of apertures (2), the

2 area of each individual aperture being at most 2.25 cm ; that the total free open area of the plate is at least

70 % of the total plate area; and that the thickness of the plate is at least 5 mm.

2. Filter plate according to claim 1, c h a r a c- t e r i s e d in that the area of each aperture (2)

2 in the plate (1) at most is 1 cm .

3. Filter plate according to claim 1, c h a r a c¬ t e r i s e d in that the thickness of the plate (1) is 10 mm.

4. Filter plate according to claim 1, c h a r a c¬ t e r i s e d in that the total free open area of the plate (1) is at most 90 % of its total area.

5. Filter plate according to claim 1, c h a r a c¬ t e r i s e d in that the total free open area of the plate (1) is 80 % of the total plate area.

6. Filter plate according to claim 1, c h a r a c¬ t e r i s e d in that the apertures (2) are square- shaped in section.

7. Filter plate according to any one of the pre- ceding claims, c h a r a c t e r i s e d in that the plate (1) is made of plastic material.

8. Filter plate according to any one of the pre¬ ceding claims, c h a r a c t e r i s e d in that the filter cloth (4) is glued or welded, at (5), to the filter plate (1).

9. Filter plate according to any one of the pre¬ ceding claims, c h a r a c t e r i s e d in that the filter cloth (4) has a mesh size of about 25 - 150 μm.

10. Filter plate according to any one of the pre- ceding claims, c h a r a c t e r i s e d in that the filter cloth (4) is made of steel.