KR20050019343A - Second sewage treatment apparatus and treatment method thereof - Google Patents

Abstract

PURPOSE: To provide an apparatus for treating secondarily treated wastewater, which has a tower form, is able to be installed at a small area, and economically and effectively treat wastewater through a complete automation process, and a method therefor. CONSTITUTION: The apparatus comprises an inlet pump (100) to allow secondarily-treated wastewater to be flown in, an inlet water treatment tank (200) which treats the wastewater flown-in by the inlet pump, an inlet water guide passage (300) which guides the water flown in by the inlet pump to the inlet water treatment tank, a coagulant injection port (400) which is equipped at the inlet water guide passage and injects a coagulant into the wastewater to coagulate particulate contaminants and phosphorous, an outflow passage (310) which outflows the water treated by the inlet water treatment tank, a partition (320) which divides the inlet treatment tank into an upper part and a lower part, thereby locating the inlet water guide passage at the lower part and locating the outflow passage at the upper part, a dissolved air floating tank (500) equipped at the inside of the inlet water treatment tank, where the inlet water and fine bubbles are flowing, and a scum removing means (610) which is equipped at the upper part of the inlet water treatment tank to remove scum.

Description

Second sewage treatment apparatus and treatment method

The present invention relates to a secondary sewage treatment apparatus for treating secondary sewage treatment water and a treatment method thereof, and more particularly, to a small-scale facility with a simple structure, to reduce the treatment plant area, and to operate and maintain a fully automated process. The present invention relates to a secondary sewage treatment apparatus and a method for treating the same, which simplify and reduce the pollutants contained in the secondary sewage treatment water.

In general, sewage treatment plants use biological oxygen demand (BOD) of particulate contaminants contained in secondary treated water to reuse secondary treated water discharged downstream of the stream as industrial water, agricultural water, environmental water, and river maintenance water. : Deep Dissolve Air Flotation (DDAF) to generate microbubbles of Biochemical Oxyen Demand (SS), Suspended Solid (SS) and Nutrients (P) Floating or colloidal particles in the process of passing through the reactor and particles having a floc formed by the addition of flocculant are combined with fine bubbles of a predetermined particle size, for example, 20 μm to 100 μm, to remove contaminants while floating. do.

In order to remove such contaminants, a flotation separation method is generally used. Flotation separation is a phenomenon in which air is attached to a suspended phase dispersed in a dispersed medium to float to the limit surface where the dispersion medium and air are in contact. Say.

The flotation separation method is a method in which the specific gravity of the suspension is smaller than water or by attaching a small bubble to the suspension to reduce the specific gravity to stop the water on the surface of the water to separate the water from the flocculation tank, the air injection tank, the pressure pump, It is made by the configuration of a pressurized tank and a floating tank.

The configuration of a conventional secondary sewage treatment water treatment apparatus for treating secondary sewage treatment water will be described with reference to FIG. 1 as follows. 1 is a configuration diagram schematically showing a configuration of a conventional secondary sewage treatment water treatment apparatus.

As shown in the figure, the conventional secondary sewage treatment apparatus includes an influent water pump 1 driven to introduce secondary treated sewage; A rapid stirring tank (2) for introducing the second sewage introduced by the inflow water pump (1); A rapid stirrer (3) for rapidly stirring the secondary sewage introduced into the rapid stirrer (2); In the presence of BOD, SS and phosphorus (P) components of particulate contaminants in the sewage flowing into the rapid stirring tank (2), a flocculant injection pump for injecting a coagulant to cause a chemical reaction with the particulate contaminants or phosphorus component ( 4) and; A slow stirring tank (5) into which the sewage from the rapid stirring tank (2) flows; One or more slow stirrers (6) for slowly stirring the sewage introduced into the coagulation tank (5); A pressurized floatation tank 7 into which the sewage flowing out of the slow stirrer 6 flows; A high pressure tank (8) positioned at an upstream side of the pressurization tank (7), that is, at a downstream side of the slow stirrer (6) to inflow and supersaturate a portion of the effluent flowing into the pressurization tank (7); A flock, which is positioned above the pressure injured tank 7 and is formed by the rapid agitation tank 2 and the slow agitation tank 6, which float on the water together with the microbubbles generated by the high pressure tank 8. Scum eliminator (9) to perform solid-liquid separation of the; And a filtration tank 10 in which the effluent water from the pressurized tank 7 separated from the liquid by the scum remover 90 is introduced and filtered.

Reference numeral 11 is a high pressure air compressor for providing high pressure air to the high pressure tank 8, and reference numeral 12 is for recycling the effluent flowing out from the filtration tank 10 to the high pressure tank (8). Effluent circulation passage.

The operation of the secondary sewage treatment apparatus configured as described above will be described with reference to FIG. 2 is a schematic process block diagram for explaining a treatment process of a conventional secondary sewage treatment apparatus.

As shown in the figure, the inflow water introduced by the inflow water pump 1 is transferred to the rapid stirring tank (2). Here, when the inflow water having particulate contaminants (BOD. SS) or phosphorus (P) component is introduced into the inflow water, the flocculant is introduced into the rapid stirring tank 2 by the coagulant injection pump 4.

In the rapid agitation tank (2), the influent flowed into it rapidly stirred for a predetermined time, for example, for one minute, to form a chemical precipitate by reacting turbidity, suspended matter, and dissolved phosphorus with metal cations of the flocculant. To form a floc.

The influent introduced into the slow stirring tank 5 to form an insoluble precipitate derived from the rapid stirring tank 2 into a larger floc, and the inflow water introduced into the slow stirring tank 5 to form the floc is a predetermined time, for example, For example, it stays for 20 to 30 minutes, the stirring strength is gradually reduced to increase the flocculation strength of the floc by slow stirring, and then flows into the pressure flotation tank (7).

Here, a part of the inflow water flowing into the pressure flotation tank (7) is circulated to the high pressure tank (8), in the high pressure tank (8) in accordance with Henry's law that the solubility of the gas lying in the water increases with pressure By supersaturating the air in the high pressure tank (8) under a high pressure of 4.2kg / cm ² to 6.3kg / cm ² for about 10 seconds to 30 seconds, the supersaturated air is introduced into the pressure flotation tank (7).

In the pressurized floatation tank (7), air bubbles supersaturated by the high pressure introduced from the high pressure tank (8) generate fine bubbles having an average particle diameter of 50 μm to 70 μm due to a sudden decrease in the atmospheric pressure. The microbubbles generated in this way are attached to the floc formed by the rapid stirring and the slow stirring in the rapid stirring tank 2 and the slow stirring tank 5 to reduce the specific gravity of the floe and float together with the floc. Injured flocs are floated on the surface of the water and removed by solid-liquid separation using a scum remover (3).

The conventional secondary sewage treatment water treatment apparatus configured as described above has a complicated problem because it requires rapid stirring and slow stirring to form a floc, and an agitator for stirring must be installed.

In addition, the conventional processing apparatus has a problem that the required site for the configuration of the facility equipment is increased and the power consumption is increased because the facility size is increased.

Therefore, the present invention has been proposed to solve the above problems, and the cyclone-type secondary sewage treatment apparatus for floc formation is made in the form of a tower, it is possible to implement a simple configuration, it is possible to install a small plant Its purpose is to provide a secondary sewage treatment system and treatment method to reduce the area and to simplify the operation and maintenance with a fully automated process so that the sewage treatment can be done economically and effectively.

In order to achieve the object of the present invention, the present invention, the inlet means is driven to enter the secondary treated sewage; An inflow water treatment tank for treating sewage introduced by the inflow water pump; An influent guide passage guiding influent from the influent pump to an influent treatment tank; Coagulant injecting means for injecting a coagulant to cause a chemical reaction with the particulate contaminant or the phosphorus component when the particulate contaminant and the phosphorus component are present in the inflow sewage provided on the inflow guide; An outflow passage through which the treated water treated in the inflow water treatment tank flows out; A partition member partitioning the inflow water treatment tank into an upper and lower portion, wherein the inflow water guide passage is located at a lower portion, and the outflow passage is located at an upper side thereof; A dissolved air flotation tank provided in the inflow water treatment tank, through which the inflow water and the microbubble particles flow through the partition member; Scum removing means for removing scum generated at an upper portion of the inflow water treatment tank; One end is connected to the outlet passage, and the other end is a circulation water inlet passage communicating with a lower portion of the dissolved air flotation tank; Ultra-miniature bubble generating means provided on said circulation water inlet passage to provide microbubbles into said dissolved air flotation tank through the other end of said circulation water inlet passage; And it is provided on the lower side of the lower mixing tank provides a secondary sewage treatment water treatment apparatus including a sludge storage tank in which sludge of the influent is accumulated.

The ultra-mini strength foam generating means is provided with an air suction pipe through which air can be introduced, which is provided inside or outside of the inflow water treatment tank, and one side of the scum removing means is provided with a scum removing tank for accumulating scum removed by the scum removing means. The scum removing tank has a scum discharge passage for discharging scum accumulated in the scum removing tank to the outside.

The inflow water treatment tank, the upper portion is separated from the floating separation tank communicating with the outflow passage, and the floating separation tank by the partition member, the inflow water mixing tank and the inflow water mixing tank communicated with the inflow guide passage integrally downwardly integrated It consists of a bottom mixing tank which is formed in the form of a cone to form a vortex.

In addition, the present invention, the first step of guiding the secondary treated sewage through the inlet passage; A second step of introducing a flocculant into the inflow water introduced in the first step; A third step of flowing inflow water mixed with the flocculant into a treatment tank to perform mixing and floc; Providing a micro bubble in the inlet tank; A fifth step of removing scum formed on the upper surface of the treatment tank; And a sixth step of discharging the sewage from which the scum is removed.

The third step may include a seventh step of forming a floc by generating a swirl flow on the upper side and a swirl on the lower side; An eighth step of discharging the sludge accumulated in the lower portion of the treatment tank; And a ninth step of providing a part of the effluent discharged in the seventh step into the treatment tank and being supplied together with the microbubbles provided in the fourth step.

Hereinafter, a second apparatus for treating sewage treatment water according to the present invention will be described with reference to the accompanying drawings. 3 is a configuration diagram schematically showing the configuration of the secondary sewage treatment water treatment apparatus according to the present invention.

The apparatus for treating secondary sewage treatment water according to the present invention includes an inflow water injection pump 100 as an inflow means driven to introduce secondary treated sewage; An inflow water treatment tank 200 for inflowing and treating the secondary sewage treatment water introduced by the inflow water injection pump 100; An inflow guide passage 300 for guiding the inflow water from the inflow water injection pump 100 to the inflow water treatment tank 200; When the BOD, SS and phosphorus (P) components of the particulate contaminant are present on the inflow sewage provided on the inflow guide passage 300, a flocculant for injecting a flocculant to cause a chemical reaction with the particulate contaminant or phosphorus component A flocculant injection port 400 as injection means; An outflow passage 310 through which the treated water processed by the inflow water treatment tank 200 flows out; Partitioning the inflow water treatment tank 200 into an upper and lower portion, wherein the inflow water guide passage 300 is located at a lower portion, and the outflow passage 310 is partitioned in a horizontal direction so as to be positioned at an upper side thereof; A dissolved air flotation tank 500 provided in the inflow water treatment tank 200 and provided through the partition member 320 to flow the inflow water and the microbubble particles therethrough; And a scum removing means 600 for removing scum generated in the upper portion of the inflow water treatment tank 200.

In addition, one end (340a) is connected to the outlet passage 310, the other end 340b further includes a circulation water inlet passage 330 in communication with the lower portion of the dissolved air flotation tank 500, the circulation water The ultra-fine foam generating means 340 is provided on the circulating water inlet passage 330 to provide microbubbles into the dissolved air flotation tank 500 through the other end 340b of the inflow passage 300. do.

Although the ultra-mini-foam generating means 340 is shown as being provided on the outside of the influent water treatment tank 200 in Figure 3, when the air suction pipe 341, which is capable of introducing air, is provided to communicate with the outside, influent water It may be provided inside the treatment tank 200.

In addition, one side of the scum removing means 600 is provided with a scum removing tank 610 that accumulates the scum removed by the scum removing means 600, the scum removing tank (610) on the lower surface of the scum removing tank (610) The scum discharge passage 620 for discharging scum accumulated in the 610 to the outside is provided with communication.

The inflow water treatment tank 200 is made of a cylindrical shape, preferably a cylindrical shape, closed on one side, and an upper portion of the inflow water treatment tank 200 and the partition member 320 in communication with the outflow passage 310. It is divided with the flotation separation tank 210, is formed in the form of a cone (cone) converging downwardly integrally from the influent water mixing tank 220 and the influent water mixing tank 220 in communication with the influent water guide passage (300) The lower mixing tank 230 and the lower mixing tank 230 is formed on the lower side of the sludge storage tank 240, the sludge of the influent is accumulated.

Here, the sludge storage tank 240 communicates with the sludge discharge passage 241 to discharge the sludge accumulated therein to the outside.

In addition, the inner wall of the inflow water mixing tank 220 of the inflow water treatment tank 200 is provided with a plurality of swirl flow generating members 250 formed with a predetermined interval so as to cause swirling flow to mix the inflow water and the flocculant to form flocs. .

The swirl flow generating member 250 is a swirl flow partition wall protruding from the inner wall of the influent water mixing tank 220 having a predetermined slope.

The operation of the secondary sewage treatment water treatment apparatus configured as described above will be described with reference to FIG. 4 is a schematic process block diagram for explaining a treatment process of the secondary sewage treatment apparatus according to the present invention.

As shown in FIG. 3 and FIG. 4, the influent for the second sewage treatment is introduced into the influent mixing tank 220 of the influent treatment tank 200 through the influent guide passage 300 by the influent infusion pump 100. do.

Here, when particulate contaminants (BOD, SS) and phosphorus (P) components are present in the incoming sewage, the influent guide passage through the coagulant injection pump 400 to cause chemical reaction with the particulate contaminants or phosphorus components. A flocculant is provided on the 300, and the influent flows into the influent mixing tank 220 together with the flocculant.

The inflow water introduced into the inflow water mixing tank 220 causes swirl flow by the swirl flow partition wall 240 formed on the inner wall of the mixing tank 220, and the turbidity material, the suspended matter, and the dissolved phosphorus in the metal cation of the coagulant. React to form chemical precipitates which induce precipitates to form flocs.

Inflow water mixed with the flocculant in the inflow water mixing tank 220 to form a floc is moved to the lower side of the inflow water treatment tank 200, and reaches a conical bottom mixing tank 230 to form a vortex and further aggregate and Form a floc.

At this time, the sludge formed in the lower portion of the inflow water treatment tank 200 is accumulated in the sludge storage tank 240, the sludge accumulated in the sludge storage tank 240 is discharged to the outside through the sludge discharge passage 241.

Subsequently, a part of the effluent flowing through the circulating water inflow passage 330 having one end connected to the outflow passage 310 through which the secondary sewage is treated and discharged is saturated with the air provided by the ultra-fine foam generating means 340. It is made of dissolved ultra-fine strength gun and is supplied into the dissolved air flotation tank 500 through the other end of the circulation water inflow passage 330.

The inflow water present in the dissolved air flotation tank 500 is combined with the ultra-fine foam supplied therein to form a particulate material having a smaller density than water and other poorly insoluble particulate materials such as flocs formed by reacting with the dissolved material. Attached to the ultra-fine bubbles to reduce the specific gravity to the volume to float in the dissolved air flotation tank (500).

The floated floc forms the scum layer 211 on the upper surface of the flotation separation tank 210, the formed scum layer 211 is removed by the scum removing means 600, and the scum removed is the scum removing tank 610. The stacked scum is discharged to the outside through the scum discharge passage 620.

Subsequently, the sewage treated in the flotation separation tank 210 from which scum is removed is discharged through the outflow passage 310, and a part of the outflow water discharged through the outflow passage 310 is a circulation water inflow passage 330. Through the micro-bubble generating pump 340 is supplied to the dissolved air flotation tank 500 in the influent water treatment tank 200 again, and performs a series of secondary sewage treatment operation.

In summary, the first step of guiding the sewage treatment water of the present invention operating as described above through the inflow passage; A second step of injecting a flocculant into the influent water introduced in the first step; A third step of flowing inflow water mixed with the flocculant into a cylindrical treatment tank to proceed with mixing and floc; Providing a micro bubble in the inlet tank; A fifth step of removing scum formed on the upper surface of the treatment tank; And a sixth step of discharging the sewage from which the scum has been removed.

The third step further includes a seventh step of generating inflow water flowing into the treatment tank to generate a swirl flow on the upper side and to form a vortex on the lower side.

Here, the treatment tank is formed in a cylindrical shape as a whole, the inner wall is provided with a plurality of swirl flow generating member formed with a predetermined interval to form a mixing and flocculant inlet and flocculant to generate swirl flow, the lower portion is downward It is formed in the form of a converging cone.

In addition, the eighth step of discharging the sludge accumulated in the lower portion of the treatment tank; A ninth step of providing a portion of the effluent discharged in the seventh step into the treatment tank, it is supplied with the microbubble provided in the fourth step.

Here, a part of the effluent and the microbubbles are provided through the cylindrical air dissolved levitation tank in the treatment tank. This series of processes is preferably to be carried out through a vertical parallel process.

As described above, the present invention has a centrifugal force acting when the inflow water is introduced from the upper portion. The centrifugal force is used to form a cyclone treatment tank that actually collects suspended particles. The inflow water flowing into the inlet using the centrifugal force rotates the cylinder in a spiral shape, and the particles contained in the inflow water are separated from the liquid on the inner wall of the cylinder or the inner wall of the conical cylinder by centrifugal force and flow down through the wall to form a sludge storage tank. And the liquid separated from the particles rises to the top of the apparatus and is discharged because the conical cylindrical central portion is maintained at negative pressure. At this time, the inflow water and the flocculant are smoothly stirred by the swirl flow generating member inside the cylinder, so that swirl flow is easily generated.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, the secondary sewage treatment water treatment apparatus according to the present invention can be implemented in a tower form, so that a simple configuration can be realized, a small installation can be achieved, and the treatment plant area is reduced, and the operation and maintenance are simplified by a fully automated process. Economic and effective sewage treatment is effected.

1 is a configuration diagram schematically showing a configuration of a conventional secondary sewage treatment water treatment apparatus.

Figure 2 is a schematic process block diagram for explaining the treatment process of the secondary sewage treatment apparatus according to the prior art.

3 is a configuration diagram schematically showing the configuration of the secondary sewage treatment water treatment apparatus according to the present invention.

Figure 4 is a schematic process block diagram for explaining the treatment process of the secondary sewage treatment apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

100: influent water pump 200: influent water treatment tank

210: flotation tank 220: influent mixing tank

230: lower mixing tank 240: sludge storage tank

241: sludge discharge passage 250: swirl flow generating member

300: inflow guide passage 310: outflow passage

320: partition 340: ultra-miniature artillery generating means

341: air suction pipe 400: flocculant inlet

500: dissolved air flotation 600: scum removing means

610: scum removal tank 620: scum discharge passage

Claims (10)

Inflow means driven to introduce secondary treated sewage; An inflow water treatment tank for treating sewage introduced by the inflow water pump; An influent guide passage guiding influent from the influent pump to an influent treatment tank; Coagulant injecting means for injecting a coagulant to cause a chemical reaction with the particulate contaminant or the phosphorus component when the particulate contaminant and the phosphorus component are present in the inflow sewage provided on the inflow guide; An outflow passage through which the treated water treated in the inflow water treatment tank flows out; A partition member partitioning the inflow water treatment tank into an upper and lower portion, wherein the inflow water guide passage is located at a lower portion, and the outflow passage is located at an upper side thereof; A dissolved air flotation tank provided in the inflow water treatment tank, through which the inflow water and the microbubble particles flow through the partition member; And Scum removal means for removing scum generated in the upper portion of the inflow water treatment tank Secondary sewage treatment water treatment apparatus comprising a. The method of claim 1, One end is connected to the outlet passage, and the other end is a circulation water inlet passage communicating with a lower portion of the dissolved air flotation tank; And Ultra-fine force generating means provided on the circulating water inlet passage to provide fine bubbles into the dissolved air floating tank through the other end of the circulating water inlet passage Secondary sewage treatment water treatment device further comprising. The method of claim 2, The ultra-fine foam generating means It is provided on the inside or the outside of the inflow water treatment tank having an air suction pipe for introducing air Secondary sewage treatment system. One side of the scum removing means is provided with a scum removing tank for accumulating scum removed by the scum removing means, and the scum discharge passage for discharging scum accumulated in the scum removing tank to the outside is provided Secondary sewage treatment system. The method of claim 1, The inflow water treatment tank, The upper portion is formed in the form of a cone separated from the floating separation tank communicating with the outflow passage, and the floating separation tank by the partition member, integrally converging downward from the inflow water mixing tank and the inflow water mixing tank communicating with the inflow guide passage. Consisting of a bottom mixing tank forming a vortex Secondary sewage treatment system. The method of claim 5, It is provided on the lower side of the lower mixing tank further comprises a sludge storage tank in which sludge of the influent is accumulated, The sludge storage tank communicates with the sludge discharge passage to discharge the sludge accumulated therein to the outside. Secondary sewage treatment system. The method of claim 5, The inner wall of the inflow water mixing tank of the inflow water treatment tank is provided with a plurality of swirl flow generating members formed with a predetermined interval so as to generate swirl flow and inflow and flocculant to form a mixture and flocs Secondary sewage treatment system. A first step of guiding secondary treated sewage through an inflow passage; A second step of introducing a flocculant into the inflow water introduced in the first step; A third step of flowing inflow water mixed with the flocculant into a treatment tank to perform mixing and floc; Providing a micro bubble in the inlet tank; A fifth step of removing scum formed on the upper surface of the treatment tank; And A sixth step of discharging the sewage from which the scum is removed Secondary sewage treatment water treatment method comprising a. The method of claim 8, The third step may further include a seventh step of generating inflow water flowing into the treatment tank to generate a swirl flow on the upper side and to form a vortex on the lower side. Secondary sewage treatment method. The method of claim 8, An eighth step of discharging the sludge accumulated in the lower portion of the treatment tank; A ninth step of providing a portion of the effluent discharged in the seventh step into the treatment tank, it is supplied with the microbubble provided in the fourth step Secondary sewage treatment water treatment method further comprising.