FI83759C - FILTER FOER AVFALLSSLAM OCH FILTERSYSTEM. - Google Patents

Description

83759 WASTE SLUDGE FILTER AND FILTER SYSTEM

The invention relates to a waste sludge filter formed by a basin formed as a movable pallet or container, at least partially filled with a porous filtering or absorbent material, such as peat or sawdust, on which the sludge to be filtered is fed, and which basin is divided into two portions substantially horizontally. , with a rigid midsole so that the midsole supports a porous filter or absorbent material placed thereon, and in which a separate liquid space is formed below the midsole 10, provided with an outlet through which the liquid filtered from the waste sludge can escape from the basin and a hatch, through which the saturated filter or absorbent can be removed, for example, by tipping the pool.

15 The treatment of various municipal, industrial and agricultural sludges is a major problem today, as there is no easy-to-use and simple way to dispose of sludges. Indeed, different sludges have to be handled and stored in many ways, 20 which are not always recommended from an environmental point of view. Most commonly, waste sludges are sought to be bound and absorbed into or filtered through porous materials.

Of the filtration and absorption materials, peat has proven to be a preferred and natural material, as its suitability as a chemical and physical filter and absorber has been found to be quite good in previous studies. Slightly decomposed white peat is about 95% porous and has a specific surface area of 200 m2 / g. These properties are close to those of activated carbon. Peat is airy and can also absorb large amounts of liquid. One peat cube can absorb water up to 600-800 1.

Peat also has a high cation exchange capacity. This 2 83759 means that the peat chemically retains positively charged ions on the surfaces of its particles. For example, urinary anunonium nitrogen, potassium, mangnesium, and calcium, as well as almost all micronutrients, are chemically retained in 5 peat. Peat as a filter material binds, for example, 0.2-0.6 kg of phosphorus, 0.9 kg of nitrogen and 65 kg of dry matter per cubic meter of peat from the sewage of fish farms. Peat is also an inexpensive and natural alternative for waste disposal and reuse.

10 For example, sludge from sewage treatment plants can be treated in peat and sand-based sludge ponds. In sludge treatment, the operation of the basin is based on the evaporation of the sludge from the surface, the filtration through the peat and sand layer, and the separation of sludge and water caused by freezing during the winter.

The edges of a sludge basin are usually constructed from the excavation masses of the basin. Applied to the bottom of the gravel ballast and drain and on the offset half a meter layer of peat. A filter cloth can be placed between the layers of peat and gravel-20 to prevent mixing of the masses. Depending on the amount and quality of the sludge and the surface area of the basin, the peat layer is changed 2-3 times a year.

These sludge tanks treat sewage sludge and sludge collected from septic tanks. According to studies, solid. · The elimination of 25 substances, nutrients, bacteria and biological oxygen demand (BHK7) is very good and the elimination of organic matter is satisfactory. The slurry dried in the peat basin is suitable as such as a soil improver.

A wide variety of liquid wastes are also brought to landfills, which can cause significant environmental damage. Such substances include, for example, metal-containing wastes, paint and adhesive wastes, and oil and solvent wastes. There may be large individual batches of such waste sludge. Many problematic wastes, such as metals, oils and dyes, can be bound to a suitable absorbent; 3 83759 such as peat, also in landfills. Peat is also suitable for the treatment of treatment and septic tank products brought to landfills.

According to a study commissioned by the Ministry of the Environment, most of the problem-5 waste was oil and heavy metal waste. About 60% of them were taken to landfills, as proper treatment and disposal of hazardous waste is difficult and expensive. An absorbent such as peat can simplify handling and reduce costs. The peat-10-based sludge pool has removed up to 99 percent of the heavy metals and iron in the heavy metal-containing sludge. In use, it has been found that peat filtration can remove a significant amount of nickel, cadmium, lead, cobalt, chromium and cyanide in the sludge. Peat also binds 15 detergents, fats, phenols, proteins and other substances that are harmful to nature and the environment and even toxic.

The use of a suitable absorbent to combat oil damage has also proven to be the best option. Thus, 20 have been developed e.g. specially prepared degreasing peat that repels water but absorbs oil. One cubic meter of de-oiling peat can bind about 600 liters of oil. Filtering the oil into peat, for example from oil-mixed seawater, reduces transport problems, because the seawater can be discharged back into the sea after filtration.

Significant amounts of sludge are generated in agriculture, which should be treated so that it can be used as a soil improver and fertilizer. The most important thing is to soak the sludge in a suitable absorbent so that it cannot contaminate the 30 waters. The absorbents used are peat, sawdust and straw. Studies show that peat retains nutrients well in livestock manure and peat manure is a superior fertilizer compared to straw and sawdust manure. In dry manure farms, urine can be bound to peat and no urine well is needed at all. 4 83759 positive experiences have also been gained from the absorption of slurry into peat. The peat and slurry are mixed and then stored in a shallow pit. Such a manure storage retains the fluids it binds and does not cause odor nuisance.

5 Fish farms are required to remove sludge from ponds sufficiently often in a manner approved by the water authorities. The load on the water body caused by fish farming can be significantly reduced by treating the resulting sludge as fresh as possible in a sludge basin based on tur-10 water filtration. The alternative is to remove the sewage. However, it would be almost a mere transport of water, as the dry matter content of the sludge is only about 3-5%. By filtering the sludge water through the peat, solids and nutrients are bound to the peat with the reject water 15 leaving the water body sufficiently clean.

However, there are numerous problems with the use of known peat filters. First, the construction of the earth or concrete sludge basin currently in use is very labor-intensive and expensive. Usually, the sludge basin is made by digging a pit in the ground into which the edge embankments are made of excavation masses. The pool has to be dug with heavy equipment, so the set-up costs are considerable. Instead of a ground-based pool, a sludge pool made of concrete can also be made, with both sides and bottom of 25 concrete. Building such a pool is even more expensive. Often, problems are still caused by the lack of suitable land for the basin.

The maintenance of a ground-based or concrete-structured filter has also been found to be very laborious, as the filter mass 30 needs to be changed perhaps several dozen times a year. When large amounts of mass have to be lifted out of the pool into the vehicle being transported each time, the need for manpower and machinery is great. In this way, the operating costs also become high, so it is an expensive and laborious method of filtering waste sludge.

5 83759 Due to the inconvenience of use, it is easy to be tempted to use the same filter mass for too long, which rapidly and often decisively reduces the retention and binding capacity of the filter.

5 A further disadvantage of the known filters is that they are very difficult to set up indoors. Structural difficulties limit the number of potential users. Simply not everyone even has enough suitable space for a filter basin.

It is an object of the present invention to provide a new waste sludge filter which does not have the disadvantages of known filters. The invention is characterized in that the midsole of the waste sludge filter basin is made of a scaly plate whose openings opening mainly in the plane direction 15 of the plate prevent the passage of filter or absorbent through the midsole, but which flake passes freely through the sludge

The waste sludge filter according to the invention is formed by a transferable sludge filter which can be easily placed anywhere. It is also easy to transport for emptying and easy to empty by tipping.

The waste sludge filter according to the invention is also more cost-effective than known sludge tanks, since laborious earthmoving and construction work are eliminated. Crushed stone and gravel are not needed, nor are drains. Operating costs are also lower, as the portable pool can be emptied much more simply than a fixed one. The portable pool can be taken as such to be emptied, so that the cumbersome mass loading step into the transport vehicle is completely eliminated.

The invention also relates to a method for using the filter described above, according to which the waste sludge 6 85759 is applied to a portable basin on a porous filtering or impregnating material, such as peat or sawdust.

The method according to the invention is characterized in that the filtering or impregnating material is placed in a basin on an intermediate base formed of sheet metal, whereby the liquid separating from the waste sludge permeating the filtering or impregnating material is removed from the basin by allowing it to drain through

The method according to the invention provides an efficient method of operating, transporting and emptying the waste sludge filter, which is more advantageous in all respects than the known methods.

The invention will now be described, by way of example, with reference to the accompanying drawings, in which

Figure 1 shows a sectional view of a waste sludge filter according to the invention formed as a demountable platform and a sludge feed apparatus.

Fig. 2 shows a section taken along the line II-II in Fig. 1.

Figure 3 shows a section of the midsole of the waste sludge filter of Figure 1.

Figure 4 corresponds to Figure 3 and shows another 25 embodiments of the midsole.

Figures 5-9 show the transport and emptying of the waste sludge filter according to the invention in stages.

Figure 1 shows a slurry filter vessel 1 according to the invention in a longitudinal vertical section. The pool is divided into two parts by 30 torn intermediate bases 6. A liquid space 10 remains under the intermediate floor and the peat 5 to be filtered from the waste sludge is placed on the intermediate floor. The pool is only partially filled with peat so that there is a sufficient filling space 7 83759 11 for the waste sludge on the peat. A sludge supply pipe 2 is placed on top of the basin, to which nozzles 3 are connected. The sludge to be filtered is pumped along a vertical pipe 12 into a supply pipe 2, from which the nozzles 3 evenly spread the sludge 4 5 to be filtered on the peat layer 5.

The peat is placed on a perforated midsole 6 in the basin 1. The midsole 6 prevents the passage of peat 5, but allows a filtered liquid 7 separating from the waste sludge to flow to the bottom of the basin 8. During the filtration phase, the basin 1 is inclined 1-2 ° so that it the liquid spilled on the bottom 8 is discharged through a hatch 17 or a valve 9 formed at the end of the basin. The rest of the sludge is absorbed into the peat 5.

Figure 2 shows a cross-section of the filter basin of Figure 1. The waste sludge 4 is applied on top of the peat 5 to the filling space 11 of the basin 1, whereby part of the sludge is absorbed into the peat. The filtered liquid 7 flows through the perforated intermediate base 6 to the bottom 8, from where the liquid leaves through valves 9, for example to a sewer.

Under the basin 1, the demountable frame beams 13 and the end rollers 14 are placed. By means of these and the demountable truck's lifting devices, the filter basin 1 can be lifted into the transport vehicle. The transport and emptying steps are described in more detail in Figures 5-9.

Figures 3 and 4 show two embodiments of the structure of the perforated midsole 6. In these embodiments, the midsole 6 is formed by a so-called screed with holes punched. The scale structure is advantageous because it does not pass through the peat against the board, but the filtered liquid can drain to the bottom. The scale plate is also advantageous because the filter basin shown in the example is intended to be emptied by opening the door 15 at the end and tilting it. When the peat slides on the surface 8 of the screed 6 83759 in Figures 3 and 4 to the right, the cleaning of possibly blocked holes also takes place.

Fig. 5 schematically shows a filter basin 1 into which the slurry 4 is pumped through the nozzles of the vertical pipe 12 and the supply pipe 2 5. The filtered liquid 7 drains into the sewer. When the filter material, i.e. in the exemplary case the peat, is saturated, the demountable transport vehicle 16 grips the filter tank 1 and lifts it for transport by the car as shown in Figs. Such demountable transport is known per se in the transport of waste, but according to the invention the demountable is formed as a filter.

For example, the filter basin 1 is taken to a landfill for emptying. The peat hatch 15 and the liquid compartment hatch 17 are opened and the saturated peat 5 is folded out. When the basin is empty, the horizontal 15 is turned back again and the hatches 15 and 17 are closed, it can be re-charged with peat as shown in Figures 1 and 2.

The example case of a waste sludge filter described above is well suited for use in a fish farm, for example.

20 In this case, sludge from fish farming is collected from indoor juvenile ponds, net ponds, perimeter ponds or underground ponds. The collected sludge is pumped as fresh as possible with a wastewater distributor into the filling space of the peat filter. Depending on the permeability of the peat, the sludge partially penetrates the 25 layers of peat, thereby retaining solids and nutrients in the peat. The intermediate floor structure under the peat layer, which is permeable to reject water, leads to the reject water space of the filtered water to be removed. Thanks to the inclined base, the reject water drains to the end of the space on the side of the outlet valve-30 and through the valves. The outgoing reject water is fully dischargeable.

When the saturation point of the filter is reached, the filtration is stopped. The drain valves close and the removal of the filter can begin. With the equipment 9 83759 in the demountable truck, the filter pallet is pulled up and driven to the unloading site. The tailgates of the filter stage are opened and the saturated filter mass on the stage and the water that has run down to the bottom are folded out. A new peat filter cartridge 5 is then loaded onto the pallet on top of the midsole, the pallet is brought back to the filtration site and the filtration can be started again.

The applications of the waste sludge filter according to the invention are, for example, wastewater treatment plants in which the sludge is dried. Filtration and binding of sludge sludge is also possible. Landfills can handle metal-containing waste, paint and glue waste, and oil and solvent waste. The industry targets the above-mentioned hazardous wastes as well as the handling of detergents, fats, phenols and proteins. In oil spills, it is important to trap and filter the oil that has fallen into the 15 water, while in ports, it is important to treat bilge water and sewage sludge from ships. In agriculture, the binding of urine and fresh feed pressing liquid as well as the binding of slurry are essential problems. In fur farms, leachate treatment and in fish-20 farms, filtration of fish pond effluent and slaughterhouse effluent are suitable applications, as are dry toilets in campsites.

It will be clear to a person skilled in the art that the invention is not limited to the examples given. Accordingly, the various embodiments of the invention may vary widely within the scope of the claims set forth below. Essential to the invention is the portability and ease of maintenance provided by the presented structure, whereby a completely new method of filtering, transporting and emptying the waste sludge is obtained at the same time. According to the most preferred embodiment, the replacement platform is formed as a peat filter.

Claims (5)

Waste sludge formed by a basin (1) formed into a movable surface or vessel, which is at least partially filled with a porous filtration or suction material (5), such as, for example, peat or saw buckle, on which the waste sludge (4) ), which is to be filtered as measured, and which basin is divided into two parts with a substantially parallel, rigid intermediate bottom (6) in such a manner that the intermediate bottom supports the porous filtration or suction material placed thereon, and in which basin below the intermediate bottom is formed a separate liquid space (10), which is provided with a drain opening (9), through which the liquid (7) filtered from the waste sludge can dispense from the basin, and which basin is provided with a cover (15), by which the saturated filtration or suction material can be removed e.g. by tipping the basin, characterized in that the intermediate bottom (6) of the waste sludge filter basin (1) is made of such a rock disc, whose openings, which open mainly in the direction of the disk's pane, prevent the filtering or suction material (5) from passing through however, which rock slab freely permits the liquid (7) filtered from the waste sludge (4) through the filtration or suction material. Waste sludge filter according to claim 1, characterized in that the waste sludge filter basin (1) is formed into a gearbox which can be lifted up to be transported by a gearbox transport vehicle (16), and that the saturated filtering or suction material ( 5) can be emptied from the basin by tipping. Waste sludge filter according to Claim 2, characterized in that the saturated filtration or suction material (5) can be discharged by tipping from the basin (1) in the direction of the scaffold in the middle bottom (6) of a rock disc. 4. A method for using a filter according to claim 1, wherein method of waste sludge (4) is spread in a movable basin (1) on a porous filtration or suction material (5), such as, for example, peat or sawdust, characterized therein. the filtering or suction material (5) has been placed in the basin (1) on an intermediate bottom (6) formed by a rock disc, wherein the liquid (7) which is separated from the waste sludge and preferably removed from the basin by the filtration or suction material, may flow through heels in the rock-disc intermediate bottom (6) and a liquid space (10) below the intermediate bottom to a drain opening (9). 15 5. A method according to claim 4, characterized in that the saturated filtering and suction material (5) is removed from the waste sludge filter by tilting the basin (1) in the direction of the scaffold in the middle bottom (6) of a screed.