KR200371017Y1 - Dissolved airfloatation system for treatment waste water - Google Patents

Abstract

The present invention relates to a pressurized floatation tank for wastewater treatment, which can easily remove scum and sediment in wastewater over the first and second stages, and simultaneously dehydrate scum to minimize water content and minimize the installation area. It relates to a pressurized buoyancy for.

To this end, the present invention and the wastewater inlet line formed on one side of the bottom end of the tank; A treatment water tank integrally attached to the other side of the tank; An air injection pressurizing line installed in communication with the wastewater inflow line; Air injection means connected to a rear end of the air injection pressure line; A first plate spaced apart from the inner bottom surface of the tank at a predetermined interval; A plurality of inclined plates installed along the longitudinal direction of the water tank at an inner central portion of the water tank; A second plate disposed at the same inclination angle at the center of the inclined plate, and having a lower end extending toward the first plate; Scum removing means installed along a longitudinal direction of an upper end portion of the water tank; The scum removed by the scum removing means provides a pressurized tank for waste water treatment, comprising a scum tank integrally formed on one side of the water tank.

Description

Pressurized floating tank for wastewater treatment {DISSOLVED AIRFLOATATION SYSTEM FOR TREATMENT WASTE WATER}

The present invention relates to a pressurized floatation tank for wastewater treatment, and more specifically, to increase the sediment surface area of wastewater by installing a plurality of inclined plates, and to minimize and remove scum water content, and to improve the pressurized tank line in a line type. The present invention relates to a pressurized floatation tank for wastewater treatment to minimize the installation area and to maximize the treatment efficiency of wastewater.

One of the causes of environmental pollution is wastewater from polluted river water, waste treatment or manure treatment plants, industrial wastewater treatment plants and sewage treatment plants.

Currently, various types of wastewater treatment apparatuses have been developed and installed in order to treat wastewater. An example thereof is configured as shown in FIG.

At the front end, a flow rate adjusting tank, which is a preparation tank for introducing raw water and transporting it to the next process, is arranged, and a reaction tank and a coagulation tank are arranged next to it.

The reactor is a tank in which Al ₂ (SO ₄ ) ₃ and NaOH are added to the influent source to react with the contaminant, and the organic and inorganic substances are removed and aggregated. Equipped.

The agglomeration tank performs a function of forming a thick FLOC (impurity agglomerates) agglomerated in the reaction tank to form a thick by inputting an organic coagulant (polymer), the stirrer included in the agglomeration tank is a chemical reaction agglomeration by adding an organic, inorganic coagulant Will be derived.

The pressure flotation tank and the treatment water tank are arranged side by side next to the flocculation tank, and the pressure flotation tank serves to separate the reaction flocculation floc in the flocculation tank into the water layer and the sludge layer, and is very important for the solid-liquid separation of the fluid. to be.

On the other hand, the pressure tank is connected to the pressure tank and the pressurized water is supplied, the pressure tank is a component that plays an important role in the sludge flotation, and generates micro bubbles and at the same time the micro bubbles are collected around the aggregated FLOC, It facilitates the separation of solid and liquid.

The treatment tank is a preparation tank for transferring the treated water separated from the liquid floating in the pressure flotation tank to the next process.

In particular, the excess sludge separated from the pressure flotation tank is sent to the scum tank, the scum tank is temporarily stored and transported to the concentration tank.

In addition, the thickening tank, dehydrator and cake storage tank are arranged side by side next to the scum tank, the thickening tank is a tank of the role of condensing the sludge for a certain time.

In addition, the dehydrator is a device for reducing the volume by removing water from the sludge generated in the waste water treatment process, the cake storage tank is a tank for temporarily storing the dehydrated cake.

When described in more detail with respect to the pressure injured tank that is most important in the wastewater treatment apparatus having such an arrangement.

Wastewater treatment refers to the removal of foreign substances in the dissolved and particulate state in water, and solidifying the foreign substances by various methods such as chemicals and microorganisms, and separating the solidified foreign substances by physical methods to separate them into supernatant and sludge. Say the process.

Although the immersion method is the most common physical method for separating the solidified foreign matter during this wastewater treatment process, the sedimentation method occupies a large area for the installation of the facility, and the sedimentary sediments decay and become wastewater again. In view of this disadvantage, a pressurized injury has been developed.

The principle of pressurization is that air is dissolved in water at atmospheric pressure and dissolved oxygen exists. When air is injected into a container with water, the air is dissolved more than atmospheric pressure, and the molecules are not dissolved. It exists in the water in a state.

When the pressure is reduced to atmospheric pressure in this state, the air existing in the molecular state in the water is released back to the atmosphere.

For example, tapping the tap with pressurized water may produce white milky tap water, because air is present in the water in the molecular state.

At this time, the sludge agglomerated with the fine air of the pressurized water has a buoyancy buoyancy, to rise above the water and to remove the injured sludge.

In other words, the principle of pressurization tank dissolves air in the wastewater to be treated under pressure, and when it is opened to the atmosphere, the air dissolved in the drainage rises into a plurality of fine bubbles, and bubbles rise in the water. It attaches around the material and reduces the specific gravity of the float, which eventually floats off and is removed.

Existing types of pressurized injuries include dissolved air flotation (DAF), cabvltation air floatation (CAF), air flatation, and vacuum floatation (Vacuum Flotation). have.

The dissolved air flotation method is divided into a full pressure method and a partial pressure method, a full pressure method is a method of pressurizing the wastewater whole body, and a partial pressure method is a method of floating the sludge by circulating only a part of the treated water, In both cases, the principle of treatment is to inject external air by using an air compressor or ejector, and at the same time, generate pressurized water to float the sludge.

The induction air flotation method uses treated water of wastewater as pressurized water, and is a method of treating by adding an anionic detergent to increase the generation of bubbles by modifying the circulating pressure type.

The air flotation method is a method using a blower and an diffuser, and is a method of forcibly injecting air into waste water to simultaneously float fine air and particulate matter.

In the vacuum flotation method, when the wastewater is injected into a vacuum space, the supersaturated air bubbles are eluted and attached to the particulate matter to float the particulate matter.

These conventional pressurization tanks have been used a lot of facilities, so they are easy to manage, and because they use various media to generate microbubbles, they can easily generate microbubbles. There is a discomfort to do, and because the detergent is put in order to increase the floating efficiency, there is a problem that the foaming occurs in the treated water at the same time the operating cost is increased.

In particular, the conventional pressurization tank has a disadvantage that the sludge is not generated due to the non-bubble is generated, the sludge is precipitated high, the unused area of the inner space is widened, weakening the flotation force of the sludge.

In addition, the existing pressure injured baths take up a lot of the installation site has a disadvantage of high installation cost.

The present invention has been researched and developed in view of the above drawbacks, and is a line type pressure tank so as to naturally supply air in the atmosphere by the rotational force of the pump, rather than artificially supplying the air injection as a circulating pressure type floating separation method. Pressurized Sewage Dehydrator is installed on the upper part to reduce the moisture content of the scum. The purpose is to provide a group.

1 is a front view showing a pressurized floatation for waste water treatment according to the present invention,

Figure 2 is a plan view showing a pressurized floatation for waste water treatment according to the present invention,

Figure 3 is a side view showing a pressurized floatation for waste water treatment according to the present invention,

Figure 4 and Figure 5 is a side view showing another embodiment of the pressurized flotation tank for wastewater treatment according to the present invention,

6 is a schematic diagram illustrating a conventional wastewater treatment plant including a pressurized floatation tank.

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

10: water tank 12: wastewater inflow line

14: pressurized line for air injection 16: treated water tank

18: treated water outlet 20: water level control device

22: leg 24: line pressure tank

26: first plate 28: inclined plate

30: the second plate 32: scum tank

34: scum induction plate 36: dewatering screw

38: roller driven weaving network 40: roller

42: weave net 44: motor

46: baffle plate 100: pressure injured

The present invention for achieving the above object is a pressurized floatation tank for wastewater treatment, and a predetermined volume of water tank; A wastewater inflow line formed at one side of the bottom end of the tank; A treatment water tank integrally attached to the other side of the tank; An air injection pressurizing line installed in communication with the wastewater inflow line; Air injection means connected to a rear end of the air injection pressure line; A first plate spaced apart from the inner bottom surface of the tank at a predetermined interval; A plurality of inclined plates installed along the longitudinal direction of the water tank at an inner central portion of the water tank; A second plate disposed at the same inclination angle at the center of the inclined plate, and having a lower end extending toward the first plate; Scum removing means installed along a longitudinal direction of an upper end portion of the water tank; The scum removed by the scum removing means provides a pressurized tank for waste water treatment, comprising a scum tank integrally formed on one side of the water tank.

The lower end of the tank (the middle part from the wastewater inflow line) is formed in a conical shape that is widened upwards, and the end of the conical shape is integrally attached to the legs supported on the ground.

The air injection means includes a plurality of line pressure tanks installed along the longitudinal direction of the water tank in the space between the lower end of the water tank (conical surface forming a cone) and the leg; It is characterized by consisting of a pressure pump connected to the pressure tank.

A scum guide plate installed along the longitudinal direction of the upper end of the tank to the scum removing means and communicating with one end of the scum tank; A dewatering screw installed along the longitudinal direction of the tank directly above the scum guide plate; Characterized in that it consists of a roller-driven weaving net installed between the dewatering screw.

The treatment water discharge port formed on one side of the water tank is vertically bent upwardly, characterized in that the water level control device of the water tank is located in the treatment water tank is further installed.

The upper inner surface of the tank is characterized in that the obstruction plate is integrally attached to induce the scum to flow toward the center (weaving side).

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

1 is a front view showing a pressurized floatation tank for wastewater treatment according to the present invention, FIG. 2 is a plan view, and FIG. 3 shows a side view.

Pressurized floatation tank according to the present invention has the main point to maximize the treatment efficiency of the waste water by minimizing scum water content while increasing the sediment surface area of the waste water and to minimize the installation area.

The water tank 10 employed in the pressure floatation tank 100 of the present invention is manufactured in a shape capable of minimizing the installation area, and is formed in a conical shape in which the lower end thereof is widened upward.

One side of the bottom of the water tank 10 is formed with a wastewater inflow line 12 through which wastewater is introduced, and the wastewater inflow line 12 is connected to the air injection pressure line 14 in communication.

In addition, on the other side of the water tank 10, as described later, the treated water tank 16 temporarily storing the treated water in which scum is removed and settled is integrally formed.

The scum refers to fats and oils, fibers, solids, etc., which are collected and floated on the surface of a sedimentation basin, a sludge storage tank, a digestion tank, and the like, and the sedimentation means that suspended substances in water settle by the action of gravity.

At this time, the treatment water outlet 18 formed on one side of the water tank 10 is equipped with a water level adjusting device 20 vertically bent upwards, the water level control device 20 is a valve in the water tank 10 It is a device for controlling the discharge of treated water when the inflow of wastewater flowing into the furnace is changed.

As described above, the lower end portion (the middle portion from the wastewater inflow line) of the water tank 10 is formed in a conical shape that is widened upwards, and the upper end portion of the conical shape is formed with the legs 22 supported on the ground integrally. Attached.

In particular, the air injection means is connected to the rear end of the air injection pressure line 14, the air injection means is the lower end of one side (outer surface of the conical shape) and the leg 22 of the water tank 10 It consists of a plurality of line-type pressure tank (24) installed in the interspace, and a pressure pump (not shown) connected to the line-type pressure tank (24).

At this time, the line-type pressure tank 24 is installed in two vertically stacked along the longitudinal direction of the tank.

On the other hand, as shown in Figures 4 to 5 attached to the line-type pressure tank 24 on one side in the space between the lower end (conical outer surface of the conical shape) and the leg 22 of the water tank (10) It can be further laminated up and down by five.

Thus, by installing the line-type pressure tank 24 in the lower end of the water tank 10, it is possible to minimize the installation area.

Here, the first plate 26 is installed to be spaced apart from the inner bottom surface (conical surface) of the water tank 10 at a predetermined interval.

In particular, a plurality of inclined plates 28 are arranged at equal intervals along the longitudinal direction of the water tank 10 in the inner central portion (space above it at the position where the conical surface ends) of the water tank 10.

In addition, the innermost position of the inclined plate 28 has a lower end extending longer to the bottom (toward the surface of the first plate) is formed as a second plate 30, the second plate 30 is At the same time serves to guide the sediment to be precipitated slowly toward the bottom of the water tank (10) while preventing scattering.

On the other hand, the scum removing means is installed along the longitudinal direction in the upper center portion of the water tank 10, the scum removed by the scum removing means is integral to the other side of the water tank 10 in a state where the moisture content is lowered Transported and stored in the scum tank 32 attached to.

The scum removing means is a concave scum induction plate 34 installed along the longitudinal direction at the upper end of the water tank 10, and along the longitudinal direction of the water tank 10 directly above the scum induction plate 34 It consists of a dehydration screw 36 to be installed, and a porous roller-driven weaving network 38 provided with the dewatering screw 36 interposed therebetween.

More specifically, one end of the scum induction plate 34 is connected in communication with the scum tank 32, the roller-driven weaving network 38 is a porous weaving network to the roller 40 of the triangular array 42 is wound, the dehydration screw 36 and the roller 40 of the roller-driven weaving network 38 is connected to the motor 44 to drive the rotation.

At this time, an obstruction plate 46 is integrally attached to the upper inner surface of the water tank 10 for inducing scum to flow toward the center side (weaving network side).

On the other hand, another form of the scum removing means, as shown in the accompanying Figure 4, a concave scum induction plate 34 is attached along the longitudinal direction of the water tank 10, the upper direction of the water tank 10 thereon The roller 40 is attached to form a vertical arrangement with the roller 40, the porous weaving wire 42 is wrapped in the roller 40.

In addition, another form of the scum removing means is, as shown in Figure 5, the concave scum induction plate 34 is attached along the longitudinal direction of the water tank 10, the length of the water tank 10 above it A pair of roller driven weaving nets 38 along the direction form a conveyor-like arrangement.

Referring to the operating state of the pressurized floating tank for wastewater treatment of the present invention made of such a configuration as follows.

Waste water is introduced through the wastewater inflow line 12 and at the same time, air is pressurized and introduced through the air injection pressure line 14 connected to the wastewater inflow line 12.

At this time, the air is supplied to the air injection pressure line 14 while the outside air is filled in the plurality of line pressure tanks 24 based on the pressure pump.

Accordingly, the air is dissolved in the waste water, and the dissolved air rises as a plurality of fine bubbles, and the scum is removed along the space between the bottom surface (conical surface) of the water tank 10 and the first plate 26. It rises towards the upper space of the means and the ramp.

That is, fine bubbles are attached around the scum (floating material) of the waste water, thereby reducing the specific gravity of the scum, and eventually the scum floats on the water.

At this time, the first plate 26 guides the flow of the waste water constantly to slowly reduce the flow rate, so that scum containing bubbles in the water is not broken.

Subsequently, the scum that floated on the water surface flows toward the center side (weaving network side) as soon as it touches the baffle plate 46 attached to the upper inner surface of the water tank 10, and the rotating roller-driven weaving network 38 It is caught in the and falls to the lower dehydration screw (36).

Subsequently, the scum is dehydrated based on the rotation of the dehydration screw 36, so that the moisture content falls to 97% or less, and the dewatered scum is seated on the lower scum induction plate 34 together with the feed force of the screw to the scum tank. It is transferred to 32 and stored.

Thus, the treated water separated by the scum passes through the plurality of inclined plates 28 and flows downward. At this time, precipitation of the treated water from which the scum is first removed is generated in the surface area of the inclined plates 28.

That is, the precipitate contained in the treated water is settled downward by its own weight, and the precipitate easily precipitates on the surface areas of the plurality of inclined plates 28.

Accordingly, the scum is firstly removed, and the treated water from which the sediment is secondarily discharged to the treated water tank 16 through the treated water outlet 18 formed at one side of the water tank 10.

At this time, when the inflow rate of the wastewater introduced into the water tank 10 is changed, it is possible to adjust the water level control device 20 of the water tank 10 located in the treated water tank 16 to adjust the discharge of the treated water. .

Next, some of the precipitates removed from the inclined plate 28 sinks to the bottom of the water tank 10, and the precipitates do not flow into the bottom of the second partition plate 30 and slowly sink to the bottom.

As such, the pressure relief tank of the present invention easily removes scum and sediment present in the waste water, thereby discharging clean treated water.

As seen above, according to the pressurized floatation for wastewater treatment according to the present invention has the advantages listed below.

1) The first plate gradually reduces the flow rate of influent water (waste water + pressurized water), so that foreign matters in the waste water slowly rises with bubbles and scum easily floats on the water surface, so that scum can be easily removed. .

2) The scum or sediment that is not removed according to the flow rate is advantageously attached to the surface area of a plurality of inclined plates to be removed.

In other words, after the separation of the scum first floated, the scum or sediment is precipitated in the second inclined plate to obtain a double separation effect with the same size as the existing equipment.

3) In the past, the scum dehydrator was installed separately, but by installing the scum dewatering screw on the top of the tank, cost and installation site can be saved.

4) Due to the dehydration of the scum dehydrator, the scum water content can be lowered to 97% or less (was 99.5%).

5) By installing the pressurized tank, which was previously installed on a separate site, as a line pressurized tank located at the bottom of the tank, the installation area of the pressurized tank can be minimized.

Claims (6)

In the pressurized flotation tank for wastewater treatment, A water tank of a predetermined volume; A wastewater inflow line formed at one side of the bottom end of the tank; A treatment water tank integrally attached to the other side of the tank; An air injection pressurizing line installed in communication with the wastewater inflow line; Air injection means connected to a rear end of the air injection pressure line; A first plate spaced apart from the inner bottom surface of the tank at a predetermined interval; A plurality of inclined plates installed along the longitudinal direction of the water tank at an inner central portion of the water tank; A second plate disposed at the same inclination angle at the center of the inclined plate, and having a lower end extending toward the first plate; Scum removing means installed along a longitudinal direction of an upper end portion of the water tank; Pressurized water tank for wastewater treatment, characterized in that it comprises a scum tank integrally formed on one side of the tank so that the scum removed by the scum removing means is stored. The wastewater treatment system according to claim 1, wherein the lower end portion (from the wastewater inflow line to the middle portion) of the water tank is formed in a conical shape that is widened upwards, and a leg supported on the ground is integrally attached to the end portion of the conical shape. Pressurization. The method according to claim 1, wherein the air injection means and a plurality of line-type pressure tank is installed along the longitudinal direction of the tank in the space between the lower end (conical outer surface of the tank) and the leg of the tank; Pressurized water tank for waste water treatment, characterized in that consisting of a pressurized pump connected to the pressurized tank. The scum guide plate of claim 1, further comprising: a scum induction plate installed in the scum removal means along a longitudinal direction at an upper end portion of the tank to communicate with the scum tank and one end thereof; A dewatering screw installed along the longitudinal direction of the water tank directly above the scum guide plate; Pressurized flotation for wastewater treatment, characterized in that consisting of a roller-driven weaving network installed between the screw for dehydration. The pressurization tank for wastewater treatment according to claim 1, wherein the treatment water discharge port formed at one side of the tank is further vertically bent upward and the water level control device is disposed in the treatment water tank. The pressurization tank for wastewater treatment according to claim 1, wherein an obstruction plate is integrally attached to the upper inner surface of the water tank for inducing scum to flow toward the center (weaving side).