KR100266085B1 - Sewage treatment apparatus using an artificial swamp - Google Patents

Abstract

An object of the present invention is achieved by providing a sewage treatment system using artificial wetland for the preservation of water quality of streams or lakes contaminated by industrial waste, waste water or domestic sewage, which is purified from raw water inflow pipe Flow rate adjustment tank which raw water for treatment flows in, and the wall is constructed on four sides at a suitable height; It is made by constructing the walls on four sides at an appropriate height, and the partitions are constructed independently by constructing an isolation wall at equal intervals therein. At least one stage treatment tank for constructing a unit cell of a water tank in parallel, and providing a wetland formed by planting perennial wetland plants on the surface of the base cell formed by appropriately mixing gravel and slag with each unit cell; A first aeration tank connected to the front of the first stage treatment tank, the first aeration tank having a plurality of air supplies supplied from a separate air pump through a supply pipe; Interposed between each of the processing tanks after the first stage treatment tank and connected to the bottom of the treatment tank of the previous and subsequent stages through a connection passage, the bottom surface of the several air supply from the air pump through the air supply pipe A second aeration tank installed in the tank; A discharge tank configured to overflow the purified water purified through the treatment tank subsequent to the final stage treatment tank in an overflow manner; A pump pump for supplying raw water in the flow rate adjusting tank to the processing tank; A raw water distributor having a first water supply pipe extending in parallel with the first aeration tank over the entire length of the first aeration tank and extending from the pumping pump, the raw water supply pipe having several branch pipes corresponding to each unit cell; Wherein, the raw water in the flow adjustment tank is pumped with a pumping pump to supply the first aeration tank through the raw water distributor, and the raw water thus supplied is alternated with at least one stage of the treatment tank and the second aeration tank using an artificial wetland. It is passed through repeatedly to purify.

Description

Sewage Treatment System Using Artificial Wetland

The present invention relates to a sewage treatment system using artificial wetlands for the preservation of water quality of streams or lakes contaminated by industrial wastes, wastewater or domestic sewage, and in particular, the elimination of eutrophication agents is excellent, and low concentrations of organic pollutants are treated. It relates to a sewage treatment system using artificial wetland that can be treated more effectively.

Various sewage treatments have been developed and used up to now, and such sewage treatments generally use sedimentation methods, decomposition methods using activated sludge, or electrochemical treatments. Such sewage treatment was not economical due to the high cost of the facility and the high operation and management costs.

In addition, these sewage treatment facilities are mainly focused on the removal of high concentrations of organic matter, so that the causes of side effects and low concentrations of organic matter are rarely removed.

The present invention has been made in consideration of the above circumstances, and an object thereof is to remove organic pollutants and causative agents of eutrophication by using subsurface flow SF of artificial wetland, and have low facilities and maintenance costs. It is to provide a sewage treatment system using a natural artificial wetland that can be applied to buffering environments and various environments.

The object of the present invention is achieved by providing a sewage treatment system using artificial wetland for the preservation of water quality of streams or lakes contaminated by industrial wastes, waste water or domestic sewage, the sewage treatment system from raw water inlet pipe Inflow of raw water for purification treatment, flow adjustment tank consisting of four walls to the appropriate height; and made of four walls to the appropriate height, the isolation walls are built independently at equal intervals inside At least one stage treatment tank configured to parallelly partition the unit cells of the tank to be partitioned, and to provide wetlands formed by planting perennial wetland plants on the surface of the base cells formed by appropriately mixing gravel and slag; A first aeration tank connected to the front of the first stage treatment tank, the first aeration tank having a plurality of air supplies supplied from a separate air pump through a supply pipe; Interposed between each treatment tank after the first stage treatment tank and connected to the bottom of the treatment tank of the previous and subsequent stages, and several air supply from the air pump through the air supply pipe to the bottom surface A second aeration tank installed; A discharge tank configured to overflow the purified water purified through the treatment tank subsequent to the final stage treatment tank in an overflow manner; A pump pump for supplying raw water in the flow rate adjusting tank to the processing tank; A raw water distributor having a first water supply pipe extending in parallel with the first aeration tank over the entire length of the first aeration tank and extending from the pumping pump, the raw water supply pipe having several branch pipes corresponding to each unit cell; Wherein, the raw water in the flow adjustment tank is pumped with a pumping pump to supply the first aeration tank through the raw water distributor, and the raw water thus supplied is alternated with at least one stage of the treatment tank and the second aeration tank using an artificial wetland. It is passed through repeatedly to purify.

1 is a plan view schematically showing the configuration of the sewage treatment system using the artificial wetland of the present invention

Figure 2 is a longitudinal cross-sectional view showing the configuration of the sewage treatment system using the artificial wetland of the present invention

Explanation of symbols for the main parts of the drawings

10: flow adjustment tank 12: pumping pump

14: raw water supply pipe 16: branch pipe

18: raw water distributor 30: artificial wetland

20: treatment tank 21: first stage treatment tank

22: two-stage treatment tank 24: isolation wall

26: 쎌 40: Air supply pump

41: air supply 43, 45: air supply

51: first aeration tank 53: second aeration tank

55: discharge tank 61,63,65,66: connector

68: return pump 69: return pipe

Next, embodiments of the present invention will be described in detail with reference to the drawings. 1 is a plan view schematically showing a sewage treatment system using an artificial wetland according to the present invention. The present invention provides a sewage treatment apparatus that is excellent in removing organic pollutants and causative agents of eutrophication, and removes particulate contaminants in raw water through pretreatment and septic tanks, and is independent of the inflow of raw water from which particulate contaminants are removed. At least one step of having a separate flow adjustment tank 10 to be constructed by the step, and constructing at least one step of artificial wetlands inside the wall having a suitable height adjacent to the flow adjustment tank 10 to the four sides Treatment tanks, that is, the treatment tank 20 in which the first stage treatment tank 21 and the second stage treatment tanks 22 are continuously disposed in a planar area, contaminants in raw water such as factory wastewater or domestic wastewater, in particular, high concentration and low concentration It has excellent treatment ability to remove phosphorus and nitrogen, which are the causes of organic matter removal and eutrophication.

The step treatment tank of the present invention will achieve the desired water treatment by varying the number of the step treatment tank according to the raw water for treatment in any number. In one embodiment of the present invention, a two-stage treatment tank is provided.

Referring to Figure 2 will be described in detail the structure of each step treatment tank of the present invention. That is, the step treatment tank, that is, the first and second step treatment tanks 21 and 22 are formed in the treatment tank 20 formed by constructing the wall having the appropriate height in four planes. In the two-stage treatment tank (21) (22), a sewage wall (24) constructed in parallel in the water supply direction of the raw water at equal intervals is constructed so that the water tank is partitioned independently in the stage treatment tank (21) (22). Cells 26 are formed in parallel, and the gravel and slag are appropriately mixed and filled in each of the cells 26 thus formed to form a base 28, and the perennial wetland plants are formed on the surface of the base 28 thus formed. 29) For example, reeds are mainly planted to form artificial wetlands 30. At this time, the base 28 plays an important role in supporting and growing plants in the constructed wetlands, and the subsoil should have a low permeability to retain saturated soil or water. The base 28 also makes an important contribution to the control of chemicals to improve water quality and should therefore be considered important in wetland design.

In this way, the treatment tank 20 having the artificial wetland 30 provides a treatment tank for sewage treatment by continuously arranging treatment tanks 21 and 22 of at least one step as shown in FIG. 1. In each stage treatment tank 21, 22 of the tank 20, several air supply units in which the air is supplied through the air supply pipe 41 from a separate air supply pump 40 at the front of the first stage treatment tank 21. A first aeration tank 51 having a 43 on the floor is provided, and the first aeration tank 51 and the first stage treatment tank 21 are connected to the low water level line of the first aeration tank 51. It was connected to the pipe 61 to allow the raw water to flow into the overflow.

In addition, a second aeration tank 53 is interposed between the first stage treatment tank 21 and the second stage treatment tank 22, and air is supplied from the air supply pump 40 to the second aeration tank 53. 41, a plurality of air supply 45 to be supplied through the air is installed on the bottom surface, each of the first stage treatment tank 21 and the second stage treatment tank 22 and each of the stage treatment tank 21, 22 ) Is connected to the connection pipe (63) (65) is installed on the bottom surface to allow the raw water to be treated in the ground surface flow method capable of secondary treatment and advanced treatment.

The first aeration tank 51 is provided with a raw water supply pipe 14 extending in a predetermined length from the pump pump 12 installed in the flow rate adjustment tank 10 and installed in parallel to the width of the first aeration tank 51. A raw water distributor 18 having several branch pipes 16 corresponding to the cells 26 of the treatment tank is provided in the raw water supply pipe 14 to distribute and supply the raw water to each cell evenly.

Further, a discharge tank 55 is continuously installed in the second stage treatment tank 22, that is, the final stage treatment tank 22, and the discharge tank 55 and the final stage treatment tank 22 are treated as described above. It is configured to be connected to the connection pipe 66 is installed on the bottom surface, through which the purified water flows into the discharge tank (66).

Meanwhile, the discharge tank 66 is provided with a return pump 68 in the concave inlet 67 formed by lowering one side of the bottom surface thereof, and the return pipe 69 is extended to the return pump 68 to extend the first. A part of the treated water that was purified by connecting to the aeration tank 51 was returned to the first aeration tank to be used as a supplementary water when the dilution and the amount of raw water were insufficient.

In the discharge tank 66, a discharge pipe 70 is provided on the low water level line so that the treated water overflows.

In the flow rate adjusting tank 10, an air supply 47 is provided on the bottom surface through which the air is supplied from the air supply pump 40 through the air supply pipe 42.

In addition, the bottom surfaces of the first and second stage treatment tanks 21 and 22 of the treatment tank 20 have a gradient gradually descending from the inflow side of the raw water to the outflow side. At this time, the gradient of the bottom surface was left about 1% or more. In addition, the hydraulic conductivity is set to about 259cm / day, this hydraulic conductivity can be adjusted according to the raw water conditions.

Then, when describing the water treatment process of the sewage treatment system using the artificial wetland of the present invention, the raw water from which the raw water is removed through the pretreatment or septic tank to remove the particulate contaminants is introduced into the flow adjusting tank 10 through the inflow pipe, and thus the flow adjusting tank 10 ), The raw water introduced into the first aeration tank 51 is supplied to the first aeration tank 51 by the raw water distributor 18 using the pumping pump 12, and thus the raw water supplied to the first aeration tank 51 is formed through the connection pipe 61. It flows into the artificial wetland 30 of the first stage treatment tank 21.

In this way, the raw water introduced into the artificial wetland 30 of the first stage treatment tank 21 is connected to the bottom surface of the first stage treatment tank 21 by the method of the ground surface of the artificial wet ground 30. Passing through the second aeration tank (53) (63) through the connecting pipe (65) flows into the second stage treatment tank (22).

In this way, the raw water introduced into the second stage treatment tank 22 is connected to the second aeration tank through a connecting pipe 66 installed at the rear portion in the surface of the artificial wetland 30 of the second stage treatment tank 22. The treated water flowing out to 55 and passing through the first and second stage treatment tanks 21 and 22 is discharged to the stream through the discharge pipe 70.

Therefore, the present invention is excellent in the removal of phosphorus and nitrogen, which is a source of organic pollutants and eutrophication, low facility and maintenance costs for treatment, and a buffering capacity that is capable of maintaining treatment capacity in various situations, and is environmentally friendly.

In addition, the present invention is capable of removing high-concentration organic matters, low-concentration organic matters, preventing odors and mosquito larvae, and water purifying ability, and removing suspended solids, nutrients, pathogens and heavy metals, and thus, are effective for water purification.

As described above, one embodiment of the present invention has been described, but the present invention is not limited thereto and may be modified within the scope of the claims.

Claims (6)

A flow rate adjustment tank in which raw water for purification treatment is introduced from the raw water inflow pipe, and a wall having an appropriate height is constructed on four sides; A wall with a suitable height is constructed by four sides, and an isolation wall is constructed at equal intervals in the inside thereof to form a unit cell of water tanks which are independently partitioned in parallel, and appropriately mix gravel and slag in each of these unit cells. At least one stage of the treatment tank to provide a wetland formed by planting perennial wetland plants on the surface thereof; A first aeration tank connected to the front of the first stage treatment tank, the first aeration tank having several air supplies supplied from the separate air supply pump through the air supply pipe on the bottom surface thereof; Interposed between each treatment tank after the first stage treatment tank is connected to the bottom of the treatment tank of the previous and subsequent stages, the bottom surface of the several air supply from the air supply pump to supply air through the air supply pipe A second aeration tank installed in the tank; A discharge tank for discharging the purified water through the treatment tank successively to the final stage treatment tank in an overflow manner; Pumping pump for supplying the raw water in the flow rate adjustment tank to the treatment tank; A raw water distributor having a first water supply pipe extending in parallel with the first aeration tank over the entire length of the first aeration tank and extending from the pumping pump, the raw water supply pipe having several branch pipes corresponding to each unit cell; Contains; Here, the raw water in the flow adjustment tank is pumped with a pump to supply the first aeration tank through the raw water distributor, and the raw water thus supplied is alternately and repeatedly passed through at least one stage of the treatment tank and the second aeration tank using an artificial wetland. Sewage Treatment System Using Artificial Wetland The method of claim 1, A return pipe is installed at one bottom of the discharge tank, extends from the return pump, connects the discharge tank with the flow regulating tank, and returns a portion of the purified water discharged through the final treatment tank to the flow regulating tank side. Sewage treatment system using artificial wetland further comprising having The method of claim 1, The sewage treatment system using artificial wetland further comprises having an air supply on the bottom surface of the flow rate adjustment tank air supplied from the air pump through the air supply pipe The method of claim 1, The bottom surface of the treatment tank is a sewage treatment system using an artificial wetland further comprises a gradient of at least 1% of the treatment tank going from the raw water inlet side to the outlet side gradually down. The method of claim 1, Sewage treatment system using artificial wetland further comprising having an air supply in the flow rate adjustment tank The method of claim 1, The artificial wetland is a sewage treatment system using an artificial wetland further comprising that using the surface ground flow method