KR20070018276A - Dissolved Air Flotation System - Google Patents

Abstract

The present invention is to provide a buoyancy tank and the floating tank body; A sludge supply passage installed on an inner center line of the floatation tank body and having a top end blocked and having a side opening formed around an upper edge thereof, the cylinder being connected to a sludge supply pipe drawn out of the floatation tank body; A cylindrical blocking wall installed to surround the outer side of the sludge supply cylinder at regular intervals and extending to a depth of 1/2 to 2/3 from the top of the flotation body; An upper scraper installed to collect the floating flocks on the blocking wall; A wear installed to discharge the condensed scum sludge collected by the upper scraper to the outside; A treatment water discharge port formed in the floating tank main body outside the barrier wall; A circulation pipe formed on the floating tank main body outside the blocking wall; A pressurized pump coupled to the air circulation to the circulation pipe; A pressure tank installed in the circulation pipe to store the circulation water from the pressure pump and to saturate the air; An injector installed at a connection portion of the pressurized water circulation pipe and the sludge supply pipe to eject the sludge from the pressure tank to extract the sludge from the external coagulation reaction facility and to supply the sludge supply pipe; Characterized by a structure comprising a.

Pressurized Flotation Tank, Circulating Water Pressurization, Flotation Separation Method, Reverse Flotation

Description

Dissolved Air Flotation System

1 is a block diagram of a floating tank according to the present invention

2 is an internal structure diagram of the present invention

3 is a coupling structure of the injector according to the present invention

4 is an embodiment of a treatment facility according to the present invention

*. Explanation of Major Codes

10. Floating tank body 11. Trap 12. Outlet pipe 13. Valve

14. Overflow wear 20. Sludge supply tank 21. Side mouth

22. Sludge supply pipe 30. Barrier wall 40. Upper scraper

50. Wear 60. Treatment outlet 70. Circulation pipe

80. Pressurized pump 90. Pressure tank

100. Pressurized water circulation pipe 110. Injector 120. Lower scraper

a. Pressurized injured tank 200. Water supply and collection facilities

300. Coagulation plant 400. Blower

500. Chemical dispenser

The present invention relates to a pressurized flotation tank for concentrated separation of sludge contained in industrial wastewater, vegetable wastewater, general wastewater or drinking water, and more specifically, in a sludge supply container installed inside the cylindrical barrier wall by forming the floatation tank in a cylindrical shape. The sludge and the pressurized water are mixed and air bubbles are attached to the flotation, and the flotation floats through the side opening formed in the upper part of the sludge supply container. An upper scraper collects it and discharges it through the weir, installs a lower scrubber in the trap, collects and returns sand or sediment sludge, and presents a new pressurized flotation structure that discharges treated water from the outside of the barrier wall.

Generally, in order to convert the primary sediment sludge and the surplus sludge into an efficient and easy-to-dispose form during the wastewater treatment, a sludge thickening treatment for stabilization and reduction is required. Various methods are used.

Among them, flotation concentrate attaches fine bubbles to solids in sludge to make the specific gravity of solids smaller than water so that they can float and reduce the surface area required for the facility compared to other concentration treatment methods. It is easy to stop and restart, so it is effectively used in various fields such as floc, emulsion, treatment of various wastewater and removal of green algae.

The circulating water pressurization method, which is most frequently used in the flotation concentrate method, has a disadvantage of low floating efficiency because it consists of a structure in which a supply sludge is mixed with a circulating water using an ejector and then ejected to the lower part of the flotation tank.

In addition, the conventional circulating water pressure method has a disadvantage in that the flotation tank has a box shape, and the scraper for collecting the flotation floccule is composed of a reciprocating stroke structure, whereby the removal efficiency of the scum sludge layer which is flocculated and concentrated is reduced. It is a facility for traps, and traps are installed in the lower part of the flotation tank and the sludge sludge is discharged periodically, but the settled sludge does not flow smoothly to the sludge outlet under the trap and some of them float again. There were disadvantages such as deterioration of overall treatment efficiency and water quality.

In the present invention, in the construction of a pressurized floatation tank by the circulation water pressurization method, the sludge and the pressurized circulating water are discharged through the side opening of the cylindrical sludge supply cylinder installed in the cylindrical floatation tank body, thereby supplying the sludge in the sludge supply cylinder. Enhances floating efficiency by allowing air bubbles to be attached while forming turbulence, effectively enriching scum sludge and settling sludge by upper and lower scrapers, which are configured as cylindrical cylinders and driven by a single power shaft. It is intended to present a new reverse flotation flotation tank having a structure that improves sludge treatment efficiency by collecting and discharging.

To this end, the present invention consists of a cylindrical body and a float body formed in the bottom trap for discharge of sediment; A sludge supply passage installed on an inner center line of the floatation tank body and having a top end blocked and having a side opening formed around an upper edge thereof, the cylinder being connected to a sludge supply pipe drawn out of the floatation tank body; A cylindrical blocking wall installed to surround the outer side of the sludge supply cylinder at regular intervals and extending to a depth of 1/2 to 2/3 from the top of the flotation body; An upper scraper installed to collect the floating flocks on the blocking wall; A wear installed to discharge the condensed scum sludge collected by the upper scraper to the outside; A treatment water discharge port formed in the floating tank main body outside the barrier wall; A circulation pipe formed on the floating tank main body outside the blocking wall; A pressurized pump coupled to the air circulation to the circulation pipe; A pressure tank installed in the circulation pipe to store the circulation water from the pressure pump and to saturate the air; An injector installed at a connection portion of the pressurized water circulation pipe and the sludge supply pipe to eject the sludge from the pressure tank to extract the sludge from the external coagulation reaction facility and to supply the sludge supply pipe; It proposes a reverse floating pressure relief tank characterized in that the structure comprising a.

In addition, the present invention also proposes a structure in which a separate lower scraper is connected to the upper scraper at a trap portion of the lower part of the floating tank body of the above configuration.

According to the present invention, by injecting the pressurized circulating water in which the air is dissolved into the ejector, the agglomerated sludge is sucked from the agglomeration reaction facility and sent to the cylindrical sludge supply tank along with the pressurized water. Is generated in the sludge supply tank, attaching air bubbles to the floc, causing the flotation to float rapidly into the blocking wall through the side opening formed on the upper side of the sludge supply tank, and inducing rapid flotation of the floc and blocking the sludge and the treated water by the blocking wall. It is characterized by a structure that improves the treatment efficiency by separating, and by improving the treatment efficiency by inducing the discharge of the sediment, etc. by a scraper installed in the trap (TRAP) in the lower portion.

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

1 and 2 illustrate an embodiment in which the present invention is applied to a treatment apparatus in order to explain the configuration of a reverse injury pressurization tank according to the present invention, and collects waste water to be treated in an oil / water separation and collection facility 200, It is pumped into the submersible pump 210 and injected into the flocculation reaction facility 300, and a chemical injection device for injecting chemicals such as caustic soda or flocculant into the flocculation reaction facility (400, blower) and a fixed-quantity pump ( 500) is installed to induce flocculation reaction of the sludge by aeration in the flocculation reaction facility to form a floc.

The sludge supply pipe 22 is connected to the upper layer of the flocculation reaction facility, and the sludge supply pipe is connected to the pressure flotation tank 100 according to the present invention.

2 and 3 illustrate the detailed structure of the pressure injured tank according to the present invention, the pressure injured tank according to the present invention is a floating tank main body 10, a sludge supply container for supplying pressurized circulating water and sludge to the floating tank main body. 20, a barrier wall 30 formed in the main body to limit the spread of sludge, an upper scraper 40 to collect the flotation flocks, a weir 50 to discharge the collected flocs to the outside, and treated water Treatment water outlet for discharge (60), circulation pipe 70 for pumping and pressurizing the treated water in the floating tank, pressurized pump 80 for blowing air to pressurized water and pressurized circulating water Pressure tank 90, pressurized water circulation pipe 100, the sludge into the pressurized water and is composed of the injector 110 and the lower scraper 120 installed in the trap of the sludge and pressurized water.

The flotation body 10 is configured in a cylindrical shape using the FRP, trap 11 for collecting and discharging sediment and sludge is formed at the bottom, the trap is drawn out of the main body by the withdrawal pipe 12 And opened and closed by the valve 13 is configured to periodically discharge the sediment, such as sludge.

The sludge supply container 20 is opened at the lower end of the funnel tube structure, and is formed in a cylindrical structure in which a side opening 21 is formed around the upper end and the upper end is blocked, and is fixedly fixed to the main body on the inner center line of the flotation body. .

The sludge supply pipe 22 connected to the external coagulation treatment facility is connected to the body portion of the sludge supply container.

Inside the sludge supply container, turbulence is formed by the water pressure injected from the sludge supply pipe at a constant pressure, and the sludge including the pressurized circulation water in which the air bubbles are dissolved and the sludge supplied from the flocculation treatment facility is effectively mixed so that the flocs and bubbles are attached. The bubble-attached flocks are partially discharged through the side openings around the upper cylinder and floated, and some are injured after the reverse injury through the lower opening by the internal pressure, so that they are uniform throughout the circular flotation tank. Injury is done.

In addition, the structure of the flotation strong flotation is quickly floated through the side opening and the flotation weak flotation is attached to the bubble additionally in the process of re-injury is settled by the amount of sludge discharged through the trap is not large, pressurized Compared with the method of supplying the sludge used in the flotation tank to the lower part of the flotation tank, the flotation distance is very short, so the flotation efficiency is high, the flocculation of flotation during flotation is reduced, and the sludge and the treated water are separated effectively.

The blocking wall 30 is a facility for improving the flotation efficiency by separating the condensed scum sludge layer and the collection space and the storage space of the treated water by floating the upper part of the flotation tank. And the floc separated treatment water is stored outside the barrier wall and discharged in a stabilized state.

The barrier wall is installed so as to surround the sludge supply cylinder to be spaced apart from the sludge supply cylinder, and can be effectively achieved by extending the 1/2 to 2/3 depth from the top of the flotation body.

The scraper 40 is configured such that the scraper shaft 41 is fixed to the center of the float body and the rubber pad 43 attached to the rotary blade 42 is in contact with the water surface.

The wear 50 is for discharging the flocks collected by the scraper to the outside is formed on the upper side of the float body, the scum sludge collected as the blade of the scraper is rotated is automatically introduced into the ware is discharged.

In the upper part of the flotation body, it is preferable to form the overflow wear 14 on the outside of the upper blocking wall so as to adjust the water level in the flotation. In this case, the overflow wear is the wear 50 and By connecting, it is possible to control the discharge concentration of the scum sludge or the level in the flotation tank.

The treated water outlet 60 is formed in the floating tank main body outside the blocking wall to discharge the treated water.

The circulation pipe 70 is a pipe for taking in some of the treated water, and the pressure pump 80 pumps the circulation water and inhales and pressurizes the air together. Therefore, the air control sense 81 and the suction control valve 82 is provided in the circulation pipe.

The pressure tank 90 has a function of dissolving the air sucked in the pressurized state to more easily melt the air to secure the dissolved air necessary for injury, and to store the seized water and supply it to the injector 110.

Pressurized circulation pipe 100 is a pipe for connecting from the pressure tank to the injector, by connecting the sludge supply pipe connected to the flocculation reaction facility using an injector can draw the sludge in proportion to the amount of pressurized circulating water to be injected into the flotation tank. .

The injector is an element which injects the pressurized circulating water by the nozzle in the sludge supply pipe connected to the flocculation reaction facility as shown in FIG. 4 so that the sludge is introduced by the suction pressure. Three pressurized circulation pipes (100, 100a, 100b) is configured in parallel to show a structure connected to the sludge supply pipe by the injector (110, 110a, 110b), respectively.

In the above structure, each pressurized circulation pipe is controlled by the respective valves, and the sludge can be introduced more effectively by sequentially introducing the sludge.

The present invention also proposes a configuration in which the lower scraper 120 is installed in the trap of the lower part of the floating tank body.

The lower scraper has a specific gravity greater than that of water, so that sludge or sand, which settles below the flotation tank, is scraped and scraped with a scraper to effectively discharge the scraper.

The lower scraper is coupled to the same upper shafter shaft 41 on the same axis and driven by a single power.

According to the present invention according to the above configuration, while the supply sludge forms turbulent flow in the sludge supply container, the airborne efficiency is improved by attaching the air bubbles necessary for flotation, and the upper scraper and the lower part are configured to have a cylindrical cylinder and rotate by a single power shaft. The scraper effectively collects and discharges concentrated scum sludge and sediment sludge, and the sludge and treated water can be separated to provide the sludge condensation treatment effect.

Claims (3)

A float body having a cylindrical shape and formed with a trap for discharging sediment at the bottom thereof; A sludge supply passage installed on an inner center line of the floatation tank body and having a top end blocked and having a side opening formed around an upper edge thereof, the cylinder being connected to a sludge supply pipe drawn out of the floatation tank body; A cylindrical blocking wall installed to surround the outer side of the sludge supply cylinder at regular intervals and extending to a depth of 1/2 to 2/3 from the top of the flotation body; An upper scraper installed to collect the floating flocks on the blocking wall; A wear installed to discharge the condensed scum sludge collected by the upper scraper to the outside; A treatment water discharge port formed in the floating tank main body outside the barrier wall; A circulation pipe formed on the floating tank main body outside the blocking wall; A pressurized pump coupled to the air circulation to the circulation pipe; A pressure tank installed in the circulation pipe to store the circulation water from the pressure pump and to saturate the air; An injector installed at a connection portion of the pressurized water circulation pipe and the sludge supply pipe to eject the sludge from the pressure tank to extract the sludge from the external coagulation reaction facility and to supply the sludge supply pipe; Reverse levitation pressure relief tank characterized in that the structure comprising a. The reverse flotation booster as claimed in claim 1, wherein a lower scraper is connected to the upper scraper to share power. [3] The reverse flotation pressure riser according to claim 1 or 2, wherein the three pressurized circulation pipes are configured in parallel and are connected to the sludge supply pipe by injectors, respectively.

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