KR100436981B1 - Water-treatment apparatus - Google Patents

Abstract

The present invention relates to a water treatment apparatus for treating a variety of wastewater containing a large amount of organic matter, such as domestic wastewater, factory wastewater and livestock manure, and minerals such as sand, the antimicrobial active layer 14 and fine filtration for sterilizing microorganisms in the wastewater A primary filtration tank 10 comprising a layer 15, a secondary filtration tank 20 comprising a neutralizing active layer 22 and a second active layer 23 for neutralizing acidified wastewater and primary and secondary filtration It comprises a tertiary filtration tank 30 including an oxygen enrichment active layer and a third active layer 33 to enrich the oxygen in water to reduce the biological oxygen demand.

Description

Water-treatment apparatus

The present invention relates to a water treatment apparatus. More specifically, the present invention relates to a water treatment apparatus for treating various wastewater containing a large amount of organic matter such as domestic wastewater, factory wastewater and livestock manure and inorganic matter such as sand.

Wastewater discharged from various life activities, production activities, etc., including livestock wastewater, is very diverse and diverse, and the amount is also very large, and it is common that a lot of costs and efforts are required for proper treatment. Wastewater treatment is increasing in importance with regard to environmental pollution, and the development of technologies related to wastewater treatment is active, but it still requires a lot of cost and effort to effectively treat various, diverse and large amounts of wastewater. And economical and very effective wastewater treatment technology is still one of the much demanded technology. In particular, the treatment of wastewater containing a large amount of organic and inorganic materials at the same time, such as livestock wastewater, is extremely expensive, farmers are small producers of production activities, and livestock facilities are scattered throughout the country. It is very difficult to deal with.

An object of the present invention is to provide a water treatment apparatus for treating various wastewater containing a large amount of organic matter, such as domestic wastewater, factory wastewater and livestock manure, and inorganic matters such as sand.

1 is a configuration diagram schematically showing one specific embodiment of a water treatment apparatus according to the present invention.

※ Explanation of code for main part of drawing

10: primary filtration tank 11: the first intake pipe

12: first filtration layer 13: first active layer

14: antimicrobial active layer 15: particulate filtration layer

16: second filtration layer 17: first outlet pipe

20: Secondary filtration tank 21: Second intake pipe

22: neutralizing active layer 23: second active layer

24: 2nd outlet 30: 3rd filtration tank

31: third inlet pipe 32: oxygen enrichment active layer

33: third active layer 34: third outlet pipe

41: injector 42: level control device

43: thin nonwoven fabric 121: sponge

122: posterior nonwoven fabric

The water treatment device according to the present invention is located below the first inlet pipe, the first inlet pipe into which the water to be filtered is introduced, and is located below the first filtration layer including a filter medium made of porous material. , The first active layer comprising a filter medium consisting of 20 to 40% by weight of activated carbon and 60 to 80% by weight of sawdust, the second filter layer is located at the bottom of the filter tank, the second filter layer comprising a filter medium of gravel of 10 to 20mm , 1 to 2 mm and an antimicrobial active layer comprising a filter medium made of antimicrobial activated carbon between the first filtration layer and the second filtration layer, the first water extraction pipe being connected to the second filtration layer and outputting the filtered water. A primary filtration tank which is formed by sequentially stacking particulate filtration layers including sand filter media having a size of; The second inlet pipe to which the primary filtered water flows, the first filtration layer located below the second inlet pipe, including a filter medium made of porous, located under the first filtration layer, 20 to 40 weight of activated carbon %, The first active layer comprising a filter medium consisting of 60 to 80% by weight of the sawdust, the second filter layer is located at the bottom of the filtration tank, the second filter layer comprising a filter medium of gravel of 10 to 20mm, the second filter layer It comprises a second outlet pipe which is connected to the filtered water is discharged, comprising a neutralizing active layer and the filter activated carbon comprising a filter medium of alkali treatment activated carbon between the first active layer and the second filtration layer A secondary filtration tank in which second active layers are sequentially stacked; And a third inlet pipe into which the second filtered water flows, located below the third inlet pipe, and comprising a first filter layer comprising a porous material, and located under the first filter layer, activated carbon 20 to 40 A first active layer comprising a filter medium consisting of a mixture of 60% by weight and 60% by weight of sawdust, the second filter layer is located at the bottom of the filtration tank, the second filter layer comprising a filter medium of gravel size of 10 to 20mm, the second filtration A third water outlet pipe connected to the layer and including filtered water, and an oxygen enrichment active layer including a medium comprising an oxidizing agent-activated activated carbon between the first active layer and the second filter layer, and a filter medium comprising palm-based activated carbon. Tertiary filtration tank comprising a third active layer comprising a sequentially stacked; Injector for injecting the water to be filtered to the end of the first inlet pipe, the second inlet pipe and the third inlet pipe is further included.

The upper end of the primary filtration tank further includes a water level control device for adjusting the amount of water introduced into the primary filtration tank.

The first filtration layer is composed of a sponge and a posterior nonwoven fabric.

A thin nonwoven fabric of 2 to 4 mm is further included between each layer of each filtration tank.

Further comprising a flow control valve for regulating the flow of water in the outlet pipe of each filtration tank.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the water treatment device according to the present invention, neutralizing the primary filtration tank 10, acidified wastewater comprising an antimicrobial active layer 14 and a particulate filtration layer 15 for sterilizing microorganisms in the wastewater The secondary filtration tank 20 including the neutralizing active layer 22 and the second active layer 23 and the oxygen enrichment active layer and the third to increase the biological oxygen demand by enriching the oxygen in the primary and secondary filtered water Characterized in that it comprises a tertiary filtration tank 30 including the active layer 33.

The primary filtration tank 10 is located below the first inlet pipe 11 and the first inlet pipe 11 into which the water to be filtered is introduced, and includes a first filter layer 12 including a porous filter material. Located under the first filtration layer 12, the first active layer (13) comprising a filter medium consisting of 20 to 40% by weight of activated carbon and 60 to 80% by weight of sawdust, located at the bottom of the filtration tank, 10 to It comprises a second filtration layer 16 including a filter medium of gravel of 20mm size, the first water extraction pipe 17 is connected to the second filtration layer 16 and the filtered water is discharged, Between the first active layer 13 and the second filtration layer 16 is an antimicrobial active layer 14 including a filter medium of antimicrobial activated carbon and a particulate filter layer 15 including a sand filter having a size of 1 to 2 mm. It is laminated sequentially. In the primary filtration tank 10, when the wastewater source water is introduced through the first inlet pipe 11, the solids of the granules, which are relatively large in size, are filtered through the first filtration layer 12 including the porous media. do. The first filtration layer 12 is formed by laminating a sponge 121 and a rear lobe nonwoven fabric 122, and the sponge 121 is preferably layered to a thickness of 40 to 60 mm, and the rear lobe nonwoven fabric 122. Is preferably layered to a thickness of 40 to 60 mm. The sponge 121 and the rear lobe nonwoven fabric 122 can be understood to those of ordinary skill in the art can be purchased and used commercially from leading manufacturers at home and abroad. Below the first filtration layer 12, a first active layer 13 including a filter medium in which 20 to 40 wt% of activated carbon and 60 to 80 wt% of sawdust is mixed is positioned. The first active layer 13 primarily functions to adsorb bacteria, odor causing substances and other contaminants in the wastewater. The mixing ratio of the activated carbon and sawdust in the first active layer 13 is preferably made up by mixing 20 to 40% by weight of activated carbon and 60 to 80% by weight of sawdust, when the activated carbon is included in less than 20% by weight, In particular, there may be a problem in that the odor causing substances and contaminants are not sufficiently adsorbed and removed, on the contrary, more than 40% by weight may absorb and remove the odor causing substances and contaminants. Not overly economical The second filtration layer 16 located at the bottom of the filtration tank comprises a filter medium of gravel having a size of 10 to 20 mm. This gravel filter media facilitates the discharge of filtered water through the second filtration layer 16 and functions to physically support the other layers present thereon. The second filtration layer 16 is connected to each of the outlet pipes for delivering water to another filtration tank or completely discharged to the outside. An antimicrobial active layer 14 including a filter medium made of antibacterial activated carbon is stacked between the first active layer 13 and the second filtration layer 16. In particular, the antimicrobial activated carbon is an antimicrobial agent, and particularly, 0.01 of any one selected from the group consisting of silver, copper, transition metals, oxides thereof, or mixtures of two or more thereof may be used. It is supported on a solution of 1 to 1M concentration. In the above, the supporting treatment may be a known supporting method that can be easily understood by those skilled in the art, such as conventional electrochemical supporting or physical impregnation. Below the antimicrobial active layer, the particulate filtration layer 15 is laminated. The particulate filtration layer 15 includes a sand filter having a size of 1 to 2 mm. The sand functions to filter out the fine solids contained in the water passing through the first filtration layer 12 and the antimicrobial active layer 14. Particularly, the particulate filtration layer 15 is installed in the primary filtration tank 10 so that no further particulate solids are introduced into the secondary filtration tank 20 or the tertiary filtration tank 30. It is preferable to be configured to be removed from the secondary filtration tank (10).

The secondary filtration tank 20 is located in the second inlet pipe 21 through which the primary filtered water flows in, and below the second inlet pipe 21, the first filtration layer including a porous filter ( 12), the first active layer 13, which is located under the first filtration layer 12, the filter medium comprising the mixture of activated carbon and sawdust in a weight ratio of 2 to 4: 6 to 8, is located at the bottom of the filtration tank, It comprises a second filtration layer 16 including a gravel filter media of the size of 10 to 20mm, and the second water extraction pipe 24 connected to the second filtration layer 16 and the filtered water is discharged. In the secondary filtration tank 20, the water filtered through the primary filtration tank 10 is introduced through the second inlet pipe 21. The first filtration layer 12, the first active layer 13, and the second filtration layer 16 positioned below the secondary intake pipe may be understood to be the same as or similar to those of the primary filtration tank 10. have. In addition, it can be understood that the second outlet pipe 24 also plays the same or similar role as the first outlet pipe 17 of the primary filtration tank 10. The neutralizing active layer 22 is formed of a filter medium made of alkali treated activated carbon, and the neutralizing active layer 22 serves to neutralize wastewater acidified mainly by rancidity of organic matter. The neutralizing active layer 22 is selected from the group consisting of sodium hydroxide (NaOH), potassium hydroxide (KOH), calcium hydroxide (Ca (OH) ₂ ) or a mixture of two or more thereof. It is supported by a solution of 0.01 to 1 M concentration of an alkali compound. In addition, the second active layer 23 is produced by steam activation treatment in the same or similar manner as in the production of activated carbon using coal-based activated carbon, that is, solids obtained by distilling coal. The wastewater passing through the neutralization active layer 22 and the second active layer 23 neutralizes the wastewater acidified by the rancidity of the organic material to neutralize the wastewater.

The third filtration tank 30 is located below the third inlet pipe 31 through which the second filtered water flows, and the third inlet pipe 31, and includes a first filter layer including a porous filter ( 12), the first active layer 13, which is located under the first filtration layer 12, the filter medium comprising the mixture of activated carbon and sawdust in a weight ratio of 2 to 4: 6 to 8, is located at the bottom of the filtration tank, It comprises a second filtration layer 16 including a gravel filter media of the size of 10 to 20mm, and the third extraction pipe 34 is connected to the second filtration layer 16 and the filtered water is discharged Between the first active layer 13 and the second filtration layer 16, an oxygen enrichment active layer 32 including a filter medium made of oxidizing treated activated carbon and a third active layer 33 including a filter medium made of palm-based activated carbon are included. It is laminated sequentially. In the tertiary filtration tank 30, the water filtered through the secondary filtration tank 20 is introduced through the third inlet pipe 31. The first filtration layer 12, the first active layer 13, and the second filtration layer 16 positioned below the third intake pipe may be understood to be the same as or similar to those of the primary filtration tank 10. have. In addition, it may be understood that the third outlet pipe 34 also plays the same or similar role as the first outlet pipe 17 of the primary filtration tank 10. The oxygen enrichment active layer 32 functions to reduce the amount of biological oxygen by increasing the concentration of oxygen in the wastewater in which oxygen in the water is reduced due to oxidation or decay of organic matter. The oxygen enrichment active layer 32 is selected from the group consisting of conventional oxidants which do not contain harmful heavy metals such as ammonium persulfate, potassium permanganate, hydrogen peroxide, or a mixture of two or more thereof. It is carried out in the solution of the density | concentration of 0.01-1 M of oxidizing agent to become. In addition, the third active layer 33 is produced by carbonization and steam activation treatment in the same or similar manner as in the production of activated carbon using palm-based activated carbon, that is, wood of palm trees. The wastewater passing through the oxygen enrichment active layer 32 and the third active layer 33 dissolves oxygen released by decomposition of the oxidant in the wastewater in which biological oxygen demand is increased due to the rancidity of organic matter, thereby lowering the biological oxygen demand to reduce wastewater. It purifies and makes it dischargeable.

Therefore, the wastewater that has passed through the primary filtration tank 10, the secondary filtration tank 20, and the tertiary filtration tank 30 in sequence is removed from the primary filtration tank 10, and solids of particulates are removed, and the antimicrobial active layer ( 14) to sterilize the microorganism, neutralized in the secondary filtration tank 20, the oxygen is enriched in the tertiary filtration tank 30 is purified while lowering the biological oxygen demand. In addition, by the first active layer 13, which is present in both the primary filtration tank 10, the secondary filtration tank 20 and the tertiary filtration tank 30, the bacteria, odors and other contaminants in the waste water are repeatedly 1 Adsorbed and removed sequentially.

In addition, the injector 41 for injecting water to be filtered to the end of the first inlet pipe 11, the second inlet pipe 21 and the third inlet pipe 31 is further included. The injector 41 is introduced into each filtration tank while spraying the waste water to be purified in the air, so that the purified water is made by oxidation of organic substances and the like by oxygen in the air. The water purification process by spraying the wastewater in the air is a water purification technique known to those skilled in the art and can be easily understood by those skilled in the art. The injector 41 may be configured as a circular pipe having a plurality of injection holes. The injection of the wastewater from the injector 41 may be injected downward by natural fall by gravity, and may be supplied to the injector 41 while pressurizing the wastewater by a pressure pump.

In particular, the top of the primary filtration tank 10 further includes a water level control device 42 for adjusting the amount of water introduced into the primary filtration tank 10. The water level control device 42 may be a valve structure including a conventional float, etc., but a valve structure including other commercially available level detection devices may be used, and these may all be commercially available to those skilled in the art. It is known enough to exist, and this invention is not restrict | limited by these water level detection apparatus.

A thin nonwoven fabric 43 of 2 to 4 mm is further included between each layer of each filtration tank. The thin nonwoven fabric 43 mechanically supports the media constituting the layers, and physically separates the layers from each other, and also functions to facilitate the exchange of the media.

In addition, the outlet pipe of each filtration tank further includes a flow control valve (not shown for simplification of the drawing) to control the flow of water. These flow control valves function to control the flow rate and the flow rate of the waste water to be purified in each filtration tank to enable the wastewater treatment at an appropriate speed. Installation of such a flow regulating valve can be easily understood by those skilled in the art.

Hereinafter, preferred embodiments and comparative examples of the present invention will be described.

The following examples are intended to illustrate the invention and should not be understood as limiting the scope of the invention.

Example

A first inlet pipe 11, an injector 41 connected to the first inlet pipe 11, and a water level control device 42 located directly above the injector 41 in a container made of polyethylene having a capacity of 1,5 tons. As a ball and a valve connected thereto, 50mm sponge 121, 50mm rear lobe nonwoven fabric 122, and 300mm first active layer 13 (active carbon 30) sequentially from the top to the bottom of the injector 41. %, Sawdust 70%), 3 mm thin nonwoven fabric (43), 50 mm antimicrobial active layer (14), 3 mm thin nonwoven fabric (43), 300 mm sand layer (microfiltration layer (15)), 3 mm thin nonwoven fabric (43) And stacking a 150 mm gravel layer, connecting the first outlet port to the gravel layer to produce a primary filtration tank 10, and using alkali treated activated carbon of the same thickness in place of the antimicrobial active layer 14 in a container of 1 ton capacity polyethylene. Except for forming the neutralizing active layer 22 to be used as a filter medium, and below the colloidal activated carbon (second active layer 23) to a thickness of 350mm In the same way as the primary filtration tank 10 to prepare a secondary filtration tank 20, using an oxidizing agent-treated activated carbon of the same thickness instead of the antimicrobial active layer 14 in a container of polyethylene of 1 ton capacity as a filter medium It is formed in the same manner as the primary filtration tank 10, except that the oxygen enrichment active layer 32 is formed, and the palm-based activated carbon (third active layer 33) is formed to have a thickness of 350 mm below. A filtration tank 30 is prepared, the first outlet of the primary filtration tank 10 is connected to the second inlet of the secondary filtration tank 20, and the second outlet of the secondary filtration tank 20 is the third filtration tank. In connection with the third inlet of (30) to prepare a water treatment apparatus according to the present invention.

The livestock wastewater containing both sand and livestock was treated in an amount of 6 tons / day at a rate of 5 l / min to the water treatment apparatus of the embodiment, and was discharged through the third outlet of the tertiary filtration tank 30. Water quality test was performed by directly receiving the water. Water quality test was performed for biological oxygen demand, suspended solids, total nitrogen, total phosphorus, and the results are shown in Table 1 below. In addition, Table 1 below is compared with the acceptance criteria for livestock wastewater discharge in the permitted area and the notified area (Notice of the Ministry of Environment, Enforcement Rule 2000. 1. 1.).

As shown in Table 1, the livestock wastewater treated by the water treatment apparatus according to the present invention was lower than the allowance for livestock wastewater discharge in the notification area approved by the Ministry of Environment, it was confirmed that it is very effective for wastewater treatment such as livestock wastewater. In addition, the water treatment apparatus according to the present invention is designed on the basis of the treatment of wastewater containing a large amount of organic and inorganic at the same time, it can be applied to the treatment of wastewater discharged from various life activities and production activities, pollution according to a particular pollution source It is also effective when used in combination with water treatment means and devices for materials.

Therefore, according to the present invention, there is an effect of providing a water treatment apparatus for treating various wastewater containing a large amount of organic matter such as domestic wastewater, factory wastewater and livestock manure and inorganic matter such as sand.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical scope of the present invention, and such modifications and modifications are within the scope of the appended claims.

Claims (6)

A first inlet pipe into which the water to be filtered is introduced, located below the first inlet pipe, and comprising a first filter layer including a porous filter material, located under the first filter layer, and 20 to 40% by weight of activated carbon; A first active layer comprising a medium consisting of a mixture of 60 to 80% by weight of sawdust, located at the bottom of the filtration tank, a second filtration layer comprising a filter medium of gravel of 10 to 20mm, connected to the second filtration layer It comprises a first water discharge pipe which is filtered and the water is discharged, the antimicrobial active layer comprising a filter medium of antimicrobial activated carbon between the first active layer and the second filtration layer and the sand filter medium of the size of 1 to 2mm A primary filtration tank in which the particulate filtration layers are sequentially stacked; The second inlet pipe to which the primary filtered water flows, the first filtration layer located below the second inlet pipe, including a filter medium made of porous, located under the first filtration layer, 20 to 40 weight of activated carbon %, The first active layer comprising a filter medium consisting of 60 to 80% by weight of the sawdust, the second filter layer is located at the bottom of the filtration tank, the second filter layer comprising a filter medium of gravel of 10 to 20mm, the second filter layer It comprises a second outlet pipe which is connected to the filtered water is discharged, comprising a neutralizing active layer and the filter activated carbon comprising a filter medium of alkali treatment activated carbon between the first active layer and the second filtration layer A secondary filtration tank in which second active layers are sequentially stacked; And A third inlet pipe into which the second filtered water flows, Located below the third inlet pipe, the first filtration layer including a porous filter material, located under the first filtration layer, 20 to 40 weight of activated carbon %, The first active layer comprising a filter medium consisting of 60 to 80% by weight of the sawdust, the second filter layer is located at the bottom of the filtration tank, the second filter layer comprising a filter medium of gravel of 10 to 20mm, the second filter layer And a third water discharge pipe connected to the water stream, the filter comprising an oxygen enrichment active layer including a filter medium of oxidizing agent-activated activated carbon between the first active layer and the second filter layer, and a filter medium comprising palm-based activated carbon. A tertiary filtration tank in which the third active layers are sequentially stacked; Water treatment apparatus comprising a. The method of claim 1, The water treatment device, characterized in that further comprises an injector for injecting water to be filtered at the end of the first inlet pipe, the second inlet pipe and the third inlet pipe. The method of claim 1, The water treatment device, characterized in that the upper portion of the primary filtration tank further comprises a water level control device for adjusting the amount of water introduced into the primary filtration tank. The method of claim 1, The water treatment device, characterized in that the first filtration layer is made of a sponge and a non-lobe nonwoven fabric. The method of claim 1, The water treatment apparatus, characterized in that further comprises a thin nonwoven fabric of 2 to 4mm between each layer of each filtration tank. The method of claim 1, The water treatment device, characterized in that further comprises a flow rate control valve for regulating the flow of water in the outlet pipe of each filtration tank.