KR100967035B1 - An apparatus for precipitating a floating sludge - Google Patents

Abstract

The present invention relates to an apparatus for effectively settling flotation sludge in a sedimentation tank for separating sludge and treated water in a wastewater treatment process.

The present invention includes a collecting part rotatable with the frame by the rotation of the drive motor in a state in which the compact plate is locked under the water surface of the treated water, and a net for lifting the flotation sludge collected on the treated water surface of the sedimentation tank. The step of having a rotating motor, an air blowing hood on the upper side of the sludge walking unit, a blower for providing air to the air blowing hood, and a heater for heating the air, the specific gravity of the flotation sludge A drying unit for drying the floated sludge so as to be larger than the treated water in the settling tank, and an air header for injecting air into the net from the upper side of the sludge walking portion, and a moving cylinder for advancing the air header back and forth into the mesh. The sludge, which is dried by the drying unit and whose specific gravity is greater than that of the sedimentation tank, is separated and removed from the net. It provides a flotation sludge sedimentation apparatus including a separation unit for sedimentation to the bottom of the precipitating tank.

According to the present invention, by adding and lowering the flotation sludge back to the settling tank, the effect of improving the treated water quality of the unit wastewater treatment plant, reducing the load of the terminal treatment plant, and greatly reducing the inflow SS of the activated carbon plant is obtained.

Sedimentation tank, sludge, scraper, net, dryer, flotation sludge settling device

Description

Floating sludge sedimentation unit {AN APPARATUS FOR PRECIPITATING A FLOATING SLUDGE}

1 is a flow diagram illustrating a typical wastewater treatment process;

2 is a partially enlarged configuration of the flotation sludge sedimentation apparatus according to the present invention;

3 is a side cross-sectional view of the flotation sludge settling apparatus according to the present invention mounted on the settling tank;

4 is an operational state diagram showing a state in which the flotation sludge settling apparatus according to the present invention is operated in the settling tank.

       <Description of the symbols for the main parts of the drawings>

1 .... float sludge settler 5 .... center vertical axis

7 .... Drive motor 10 .... Frame

15 .... Sludge 20 .... Sludge Collection

22 .... driven cylinder 25 .... guide rod

27 .... Cylindrical guide 30 .... Driven cylinder

35 .... Shieve 37 .... Touch Bar

39a, 39b ... limit switch 40 .... step

44 .... Motor 46a, 46b ... Touch Rod

48 .. Proximity position sensor 62 .... Ventilation hood

64 .... Blower 66 .... Heater                 

68 .... blow duct 70 .... lifting cylinder

80 .... Separation 82 .... Air header

84 .... moving cylinder 86 .... flexible air pipe

88 .... Main Building 95 .... Overflow (WEIR)

97 .... Spill Relief 100 .... Controls

210 ... Nitriding tank 220, 240 ... Sedimentation tank

222 ... Sludge Line Sa ... Injured Sludge

Sb ... Settling Sludge

The present invention relates to an apparatus for effectively settling flotation sludge in a sedimentation tank for separating sludge and treated water in a wastewater treatment process, and more particularly, inducing sludge injured by attachment of nitrogen gas to one side. And separate the treated water with a rotating net, and then dry it with heated air, and put sludge back into the settling tank to improve the treated water quality of the unit wastewater treatment plant and reduce the load on the terminal treatment plant. Floating sludge settler, which can significantly reduce the inflow SS of the plant.

In general, when the wastewater treatment facility 200 is shown in Figure 1, when the raw wastewater is introduced into the aeration tank or nitriding tank 210, the aeration tank or nitriding tank 210 nitriding ammonia contained in the treated water The bacteria are nitrided through NO-> NO _2- > NO ₃ , and introduced into the first precipitation tank 220.

Then, the sludge and the treated water are separated from the wastewater treatment first sedimentation tank 220 by the difference in specific gravity, and the discharged water flows back into the secondary air aeration tank 230, and the sludge line 222 is disposed at the lower side of the first sedimentation tank 220. Through the return to the aeration tank or nitride tank 210 again. In addition, the secondary air aeration tank 230 primarily moves the discharged water from which the sludge Sb is removed to the second precipitation tank 240.

In this process, denitrification bacteria are denitrated through NO _3- > NO _2- > N in the lower part of the settling tank (220) (240) where there is little dissolved oxygen, and at the same time nitrogen gas is introduced into the settling tank (220) (240). As a result, the floating nitrogen gas and the sludge having a slight viscosity are attached, so that the sludge becomes smaller and floats, thus rising to the surface of the sedimentation tank.

However, the sludges Sa floating in the sedimentation tanks 220 and 240 are not removed as the settling sludges Sb, and are included in the treated water and discharged, thereby prematurely closing the filters and activated carbon facilities in the post process. Cause problems. Therefore, these flotation sludges (Sa) deteriorate the discharge water quality, which causes instability in the wastewater treatment facility, so the treatment of such flotation sludge (Sa) has been a major problem in the sedimentation tank.

 The present invention is to solve the conventional problems as described above, the object is to guide the sludge floated by the attachment of nitrogen gas to one side, separated from the treated water with a rotating net, and then dried by heated air sludge By removing compressed nitrogen bubbles and injecting compressed air into the sedimentation tank, the sludge is added to the sedimentation tank and lowered to improve the treatment water quality of the unit wastewater treatment facility, reduce the load of the terminal treatment facility, and greatly reduce the inflow SS of the activated carbon facility. To provide an advanced sludge settling system.

In order to achieve the above object, the present invention has a scraper for scraping the sludge adhering to the bottom of the settling tank at the bottom of the frame rotated by the drive motor about the central vertical axis of the settling tank to discharge to the center sludge discharge tube of the settling tank. In one settling tank,

The sludge plate located at the surface of the treated water of the settling tank is fixed to the lower side of the frame, and is provided with a driving cylinder for raising and lowering the sludge plate, so that the plate is locked to the lower surface of the treated water and the frame is rotated by the driving motor. A rotatable collector;

A walking part having a net for lifting the flotation sludge collected on the treated water surface of the sedimentation tank and having a motor for rotating the net;

Floating sludge is provided on the upper side of the sludge walking section, and is provided with a blower for providing air to the blowing hood, and a heater for heating the air so that the specific gravity of the flotation sludge in the cap is larger than the treated water of the settling tank. Drying unit for drying the; And

An air header for injecting air into the net at the upper side of the sludge walking part, and having a moving cylinder for advancing the air header back and forth over the net, and dried by the drying part so that the specific gravity is greater than the treated water of the settling tank. By separating and removing the floating sludge from the net to settle the lower portion of the settling tank; by providing a flotation sludge settling apparatus comprising a.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Floating sludge sedimentation apparatus 1 according to the present invention, as shown in Figures 2 and 3, the lower end of the frame 10 rotated by the drive motor 7 around the central vertical axis (5) into which the treated water flows It is equipped with a scraper 12 in the settling tank to scrape the sludge (Sb) adhered to the bottom of the settling tank 220, 240 and discharged to the center sludge discharge tube of the settling tank.

Floating sludge sedimentation apparatus 1 according to the present invention is provided with a sludge plate 15 to the lower side of the frame 10 to collect the sludge collection unit 20 to collect the flotation sludge (Sa) floating to the upper surface of the treated water. Equipped. The sludge collecting unit 20 has a driving cylinder 22 for raising and lowering the sludge mill plate 15, the sludge mill plate 15 is located on the surface of the treated water of the sedimentation tank for this purpose, the mill plate 15 is treated water It has a structure rotatable with the frame 10 by the rotation of the drive motor 7 on the surface of the water, or locked in the lower portion of the water surface.

The sludge mill plate 15 has a plurality of guide rods 25 are mounted on the frame 10 so as to move up and down, and stoppers 25a are provided at lower ends of the guide rods 25, and the guide rods are provided. The plate-shaped sludge plate 15 is horizontally mounted to the 25 through the cylindrical guide 27. In addition, a driving cylinder 30 is fixed to a bracket on the frame 10 at a central position of the guide rods 25, and a rope 32 is connected to a rod of the driving cylinder 30 so that a plurality of sheaves may be provided. It is connected to the upper end of the cylindrical guide 27 through the (35).

Thus, the actuation of the drive cylinder 30 pulls or slows the rope 32 so that the sludge mill 15 is raised and lowered along the guide rod 25 through the rope 32 and consequently the sludge. The plate 15 is located on the surface of the treated water or submerged to the lower side of the surface of the water so that it can move to the lower side of the floating sludge Sa floating on the surface.

In addition, the sludge collecting unit 20 extends the touch bar 37 to one side of the frame 10, and the touch bar 37 is installed at a predetermined interval on the walls of the settling tanks 220 and 240. It is configured to contact the plurality of limit switches 39a and 39b to send electrical signals to the control unit 100, which will be described later.

In addition, the flotation sludge sedimentation apparatus 1 according to the present invention includes a net 42 for lifting the flotation sludge Sa collected on the treated water surface of the sedimentation tanks 220 and 240, and the net 42. It has the step part 40 provided with the motor 44 which rotates. The walking part 40 is to lift up the sludge (Sa) floating in the water to the net 42 rotated by the motor 44, for this purpose, the motor 44 of the sludge collection unit 20 Located on the walls of the settling tanks 220 and 240 at positions between the plurality of limit switches 39a and 39b, the touch rods 46a and 46b protrude from the rotation axis in a direction opposite to 180 °, respectively. Proximity position sensors 48 are provided adjacent to the touch rods 46a and 46b to detect that the touch rods 46a and 46b are close to each other and transmit an electrical signal to the controller 100.

The shaft of the motor 44 penetrates the reducer 52 and the bearing block 54 to mount a square plate net 42 having a predetermined size at the end thereof.

In the above, the touch rods 46a and 46b are respectively mounted on the rotating shaft so that the position of the mesh 42 and the direction thereof coincide with each other, thereby detecting the position of the mesh 42.

And, the sludge sludge deposition apparatus 1 of the present invention includes a blower hood 62 having an air blow hood 62 on the upper side of the sludge walking part 40, and providing air to the air blow hood 62; It has the heater 66 which heats air, and has the drying part 60 which dries the floating sludge Sa on the net 42. As shown in FIG.

The drying unit 60 is located in the upper side of the sludge walking part 40, as shown in Figure 3, the air blowing hood 62 which can be moved up and down in the upper portion of the net 42 And a blower 64 for supplying air through the duct 68 to the blowing hood 62, and a heat radiating electric heater 66 for heating the air in the middle of the duct 68 to blow the air. The air passing through the duct 68 is heated to a high temperature, and sprayed onto the floating sludge Sa on the net 42 to dry it.

In addition, the drying unit 60 vertically mounts the blowing hood 62 through the flexible duct 68a at the end of the blowing duct 68 for the lifting and lowering of the blowing duct 68, and the blowing duct ( 68 is provided with a plurality of lifting cylinders 70, respectively, so that the rod is connected to the blowing hood 62 by the operation of the lifting cylinder 70, the blowing hood 62 is raised and lowered with respect to the blowing duct 68. The displacement is such that the flexible duct 68a can absorb.

Therefore, the drying unit 60 supplies air to the blower duct 68 through the blower 64, and sprays downward through the blower hood 62 in a state in which air is heated through the heat radiating heater 66, In this process it is possible to adjust the height of the blowing hood 62 through the lifting cylinder 70 and the flexible duct 68a.

And, the sludge sludge settling apparatus 1 of the present invention has a separating portion 80 for separating and removing the flocculated sludge Sa from the net 42. The separating part 80 has an air header 82 for injecting air into the net 42 from the upper side of the sludge collecting part 40 and advances the air header 82 back and forth over the net 42. It is provided with a moving cylinder 84, the air header 82 is provided with a high pressure air from the air main pipe 88 through the flexible air pipe 86, the middle of the air main pipe 88 It consists of a structure equipped with the on-off valve 88a.

In addition, the separating part 80 is equipped with a plurality of moving cylinders 84 on the support plate 90 to move the air header 82 forward and backward, the air header 82 is connected to the rod to the movement By operation of the cylinder 84, the air header 82 moves the front and rear ends of the net 42 from the upper side of the net 42, and through the nozzle 82a provided in the air header 82, By blowing high pressure air to 42, the floating sludge Sa attached to the net 42 is separated and removed.

Meanwhile, as illustrated in FIG. 2, the outflow prevention plate 97 of the floating sludge Sa having the Γ-shaped cross section is fixed to the settling tank 220 and 240 inward of the overflow plate WEIR 95. By forming the cutout portion 95a at the outer edge of the overflow plate 95, the outflow of the floating sludge Sa is blocked by the outflow prevention plate 97 to be processed through the cutout portion 95a. The discharge of water takes place.

Meanwhile, the present invention receives an electrical signal from the limit switches 39a and 39b, and drives the cylinder 22 of the sludge collecting unit 20 based on the signal and a built-in timer (not shown). ), The driving motor 7, the motor 44 of the walking part 40, the blower 64 of the drying part 60, the heater 66, the lifting cylinder 70, and the automatic opening and closing of the separating part 80. And a control unit 100 for automatically controlling and driving various drive sources such as the valve 88a and the moving cylinder 84 in accordance with a preset program. The controller 100 may be a computer or a programmable logic controller (PLC).

Referring to the operation and effects of the present invention configured as described above are as follows.

Floating sludge sedimentation apparatus 1 according to the present invention, as shown in Figure 3, because the flow direction of the treated water and the flotation sludge (Sa) toward the outside from the center of the settling tank 220, 240, the water surface As the sludge mill plate 15 is moved, the floated sludge Sa is also moved to the upper portion of the treated water. As a result, the floated sludge Sa is disposed on the surface of the treated water of the settling tanks 220 and 240. Is pushed by 15). In this way, when the sludge mill plate 15 collects the sludge Sa while turning by the motor 7 which pivots the frame 10, the touch bar 37 contacts the one limit switch 39a. The drive cylinder 22 of the reject 20 is operated to lower the sludge mill plate 15. Therefore, the sludge mill plate 15 is lowered below the surface of the water, and the pushing operation of the floated sludge Sa by the sludge mill plate 15 is stopped, and the sludge mill plate 15 is at the lower surface side of the floated sludge Sa. To move.

In addition, when the touch bar 37 contacts the remaining limit switch 39b to generate an electrical signal, the driving cylinder 22 moves backward to raise the sludge mill plate 15 to coincide with the surface of the water. ) Is again pushed by the sludge mill plate 15 to move the treatment head and collect.

On the other hand, the operation of the motor 44 is stopped when the sludge collecting unit 40 passes the section between the limit switches 39a and 39b of the sludge collecting unit 20, After the sludge mill 15 passes through the limit switches 39a and 39b, it is operated to rotate the net 42 slowly, and the net 42 picks up the flotation sludge collected on the lower side thereof. Stop while level with water and dewater water from the sludge (Sa) by gravity.

The horizontal holding of the mesh 42 detects the proximity position sensor 48 because the plurality of touch rods 46a and 46b provided on the rotating shaft of the motor 44 are formed to be the same as the position of the mesh 42. By the signal, the rotation of the motor 44 is stopped through the control unit 100, and the network 42 is kept horizontal.

In this way, when the net 42 is kept horizontal and dehydration is performed from the wound sludge Sa lifted by the net 42, the sludge drying unit 60 is operated to lift the sludge on the net 42. (Sa) is dried at high temperature. This is because the control unit 100 starts the blower 64 and the heat radiating heater 66 of the sludge drying unit 60, and then advances the lifting cylinder 70 and blows up the blower hood 62 to the floating sludge of the net 42. Sa) is lowered to the upper side, and the floated sludge Sa is dried for a set time, and then the blower 64 and the heater 66 are stopped. When the lifting cylinder 70 is raised to its original position, the floating sludge Sa on the net 42 is dried and separated from nitrogen bubbles, so that the specific gravity becomes heavy.

When the sludge separation unit 80 operates in this state, the control unit 100 opens the automatic opening / closing valve 88a of the air main pipe 88 to inject high-pressure air into the air header 82, and simultaneously controls the control unit 100. ) Operates the plurality of moving cylinders 84 so that the air header 82 is moved from the front end to the rear end of the net 42, and the high-pressure jet air is injected as above. Separate Sa). That is, the moving cylinder 84 is operated for several seconds to remove the dried floating sludge Sa from the net 42, and when the forward and backward of the moving cylinder 84 is completed, the automatic opening and closing valve 88a is closed.

Thus, the floating sludge Sa separated from the net 42 is dried by high temperature air, and since nitrogen bubbles are removed, the specific gravity becomes significantly heavier than the treated water and is easily precipitated in the treated water.

Therefore, it sinks to the bottom of the settling tank (220) (240), which is scraped by the scraper (12) scraping the bottom of the settling tank (220) (240) through the sludge outlet (99) thickening tank, dehydrator It will be headed for incineration.

As described above, according to the present invention, the flotation sludge Sa generated in the sedimentation tanks 220 and 240 is dried at a high temperature to increase the specific gravity, and the sedimentation tanks 220 and 240 are again settled and treated with a concentration tank. will be.

As described above, according to the present invention, since flotation sludge Sa is not discharged through the treated water, the treated water quality of the unit wastewater treatment plant is improved, and the load of the wastewater terminal treatment facility is reduced, in particular, the inflow SS of the activated carbon facility. This greatly reduces the operating cost of the wastewater treatment plant and is an excellent effect of improving the water quality of the effluent.

Claims (5)

At the bottom of the frame 10 rotated by the drive motor 7 around the central vertical axis 5 of the settling tanks 220 and 240, the sludge adhered to the bottom of the settling tank is scraped and discharged to the central sludge discharge tube of the settling tank. In the settling tank provided with the scraper 12, The sludge mill plate 15 positioned on the surface of the treated water of the settling tanks 220 and 240 is fixed to the lower side of the frame 10, and the mill plate is provided with a driving cylinder 22 for raising and lowering the sludge mill plate 15. A collecting part 20 rotatable together with the frame 10 by the rotation of the drive motor 7 in a state in which 15 is locked under the surface of the treated water; The walking part 40 provided with the motor 42 which raises the floating sludge Sa collected on the treated water surface of the said settling tank 220, 240, and rotates the said net 42. ); A blow hood 62 is provided on the upper side of the sludge collecting part 40, a blower 64 for supplying air to the blow hood 62, and a heater 66 for heating the air. Drying unit 60 for drying the floating sludge (Sa) so that the specific gravity of the floating sludge (Sa) above the greater than the treated water of the settling tank (220) (240); And A moving cylinder 84 having an air header 82 for injecting air into the net 42 from the upper side of the sludge step 40, and moving the air header 82 forward and backward onto the net 42; It is dried by the drying unit 60, the specific gravity is greater than the treated water of the sedimentation tanks 220, 240 to remove the sludge (Sa) from the net 42 to remove the sedimentation tanks 220, 240 Floating sludge sedimentation apparatus comprising a; According to claim 1, The sludge plate 15 is a plurality of guide rods 25 are mounted to the frame 10 in order to move up and down, respectively, stopper (25a) is provided at the lower end of the guide rods 25 The guide rod 25 is horizontally mounted with a plate-shaped sludge plate 15 through a cylindrical guide 27, and a driving cylinder on the frame 10 at a central position of the guide rods 25. 30 is fixed, the rope 32 is connected to the rod of the drive cylinder 30 is connected to the upper end of the cylindrical guide 27 through a plurality of sheeves (35), thereby driving the drive cylinder (30) ) Operation of the sludge plate 15 is placed on the water surface of the treated water by pulling or slowing the rope 32 so that the sludge plate 15 is moved up and down along the guide rod 25 through the rope 32. Or to dive below the surface of the water Wound Sludge Sedimentation Device, Made With Gongs. 2. The walking section 40 has the motor 44 in which the motor 44 is positioned between the plurality of limit switches 39a and 39b of the sludge collecting section 20, and the direction opposite to the rotational axis is 180 degrees. Touch bars 46a and 46b protrude from each other, and proximity position sensors 48 are provided adjacent to the touch bars 46a and 46b to detect that the touch bars 46a and 46b are close to each other. The touch rods (46a) (46b) are each mounted on the rotating shaft to match the position and the direction of the network 42, the sludge sludge deposition apparatus, characterized in that for detecting the position of the network (42). The method of claim 1, wherein the drying unit 60 is mounted to the vertical end of the blowing hood 62 through the flexible duct (68a) at the end of the blowing duct 68 for the lifting and lowering of the blowing duct (68) In addition, the blowing duct 68 is provided with a plurality of lifting cylinders 70, respectively, so that the rods are connected to the blowing hood 62, so that the blowing hood 62 is blown duct 68 by the operation of the lifting cylinder 70. Floating sludge, the flotation sludge sedimentation apparatus characterized in that the flexible duct (68a) is absorbed. According to claim 1, The sedimentation tank 220, 240 is fixed to the outflow prevention plate 97 of the floating sludge (Sa) having a Γ-shaped cross section inside the overflow plate (WEIR) (95), the wall By forming the cutout portion 95a at the outer edge of the flow plate 95, the discharge of the treated water through the cutout portion 95a in the state where the outflow of the floating sludge Sa is blocked by the outflow prevention plate 97 is prevented. Floating sludge settling device, characterized in that made.

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