KR102063343B1 - Sedimentation and filtration apparatus using chemical coagulation - Google Patents

Abstract

Disclosed is a chemical flocculation sedimentation filtration device which is installed in a wastewater treatment facility to perform precipitation and filtration together. The chemical flocculation sedimentation filtration device comprises: a flocculation reactor for aggregating solids from the wastewater introduced by injecting a flocculant; a flocculation part connected to a rear end of the flocculation reactor to receive the flocculated solids and treated water and removing sedimentable solid; and a filtration part provided at an upper portion of the flocculation part and removing floatable solid.

Description

Chemical flocculation sedimentation filtration device {SEDIMENTATION AND FILTRATION APPARATUS USING CHEMICAL COAGULATION}

The present invention relates to a coagulation sedimentation filtration apparatus, and more particularly, to a chemical coagulation sedimentation filtration apparatus for performing coagulation and filtration of solids in the process of removing solids in a wastewater treatment facility.

Wastewater or sewage is mixed with liquid or solid dirty substances, including organic substances, nutrients (N, P, etc.), toxic substances, and suspending inorganic substances, etc., discharged from human daily life and business activities. We say water which we cannot use for life and business activity of person in that state. Wastewater treatment facilities to reduce the amount or concentration of pollutants by applying various treatment methods to remove pollutants contained in such wastewater or sewage, to prevent contamination of rivers or lakes, and to protect the habitat environment of underwater animals and plants. Is installing.

In general, a combination of physical, chemical, and biological treatments are employed to remove contaminants from wastewater treatment plants. Physical treatment methods are mainly used for pretreatment or post-treatment, to reduce the amount of solids and contaminants, to protect machinery, and to keep the flow rate constant. You can go through the process. The chemical treatment method can detoxify and reduce specific pollutants in wastewater by using chemicals to treat hardly degradable organics and toxic substances through oxidation, reduction, decomposition, neutralization, and the like. The biological treatment method is mainly used as the main process of wastewater treatment, and the organic material in the influent can be stabilized or reduced by respiration, synthesis, and assetization using microorganisms.

Among them, the role of the sedimentation basin is to remove sedimentable solids. In general, the primary sedimentation basin removes relatively high solids (SS) including a large amount of minerals that could not be removed from the sedimentation basin. Installed to separate the treated water and microbial condensate (FLOC) from the effluent and removes SS through gravity settling.

In addition, in order to remove fine particles that are not removed by sedimentation at the rear of the secondary sedimentation basin, a filtration device made of sand, flotation media, filtration membrane, fibrous media, etc. is additionally installed to remove fine suspended matter.

However, the following problems occur in the conventional technology.

First, in the case of the sedimentation basin, the solids contained in the waste water are removed by natural sedimentation by gravity, and thus, a civil structure that can secure a residence time of 2 to 5 hours is needed.

Second, as the residence time increases, sediment sludge is decayed and floated to the upper side, so a scum remover is installed to remove it, but scum that has not been removed is leaked to the subsequent process, causing load on the subsequent process. ,

Third, additional equipment investment and site area are required because an additional filtration device must be installed at the rear end to remove fine particles not removed from the sedimentation basin.

One aspect of the present invention is provided with an agglomeration reaction tank, a precipitation unit and a filtration unit together in the agglomeration reaction tank forcibly coagulating not only fine solids but also soluble materials that cannot be removed by precipitation or filtration through chemical coagulation using a coagulant, and thus, degradable COD and TP. By additionally removing (total phosphorus) substances and the like, the filter unit is provided at the top of the settling section to prevent scum from flowing out of the settling section, and removes fine particles that are not removed from the settling section. It is an object of the present invention to provide a chemical coagulation sedimentation filtration device that is not installed.

However, the problem to be solved by the embodiments of the present invention is not limited to the above-described problem can be variously extended within the scope of the technical idea included in the present invention.

Chemical coagulation sedimentation filtration apparatus according to an embodiment of the present invention, which is installed in the wastewater treatment facility to modify the sedimentation and filtration together, the coagulation reaction tank for agglomeration of solids from the wastewater introduced by administering a coagulant, the rear end of the coagulation reaction tank It may be connected to the precipitated solids and the treated water is delivered to the sedimentation unit for removing the settled solids, and may be provided at the upper portion of the precipitation unit may include a filter for removing the suspended solids.

The filtration unit may include a filtration unit frame forming a plurality of divided cells, and a filtration cell provided in each of the plurality of cells and including a filter cloth or a membrane of fibrous material.

The filtration unit may be installed parallel to the water surface of the treated water stored in the precipitation unit.

It may include a washing water nozzle installed in the upper portion of the filtration cell and spraying the washing water into the filtration cell, and a washing water receiver installed in the lower portion of the filtration cell to receive the washing water passing through the filtration cell and discharge it to the outside.

The wash water receiver may be installed below 50 mm to 100 mm from the filtered water surface of the treated water stored in the precipitation unit.

The washing water discharge pipe may further include a washing water discharge pipe connected to the discharging port end of the washing water receiver and extending to the outside, and an electric valve installed at a portion of the washing water outlet to control the opening and closing.

A pressure sensor is installed inside the sedimentation unit, and a control panel electrically connected to the pressure sensor to control driving of the washing water nozzle, wherein the control panel drives the washing water nozzle when the pressure set by the pressure sensor is reached. It can be configured to.

Chemical coagulation sedimentation filtration apparatus of the present embodiment includes a control panel having a timer for controlling the driving of the washing water nozzle, the control panel may be configured to drive the washing water nozzle for a set time after the time set by the timer. have.

A sludge collector is provided at the lower end of the sedimentation unit, and a rotation drive shaft located at the center of the filter frame frame having a circular outer edge is connected to the center of the sludge collector, and the rotation drive shaft is connected to a drive motor to generate driving force. Upon delivery, the rotary drive shaft can be configured to drive simultaneously with the sludge collector.

The sedimentation unit includes a treated water outlet for discharging the treated water, and further includes a collecting tank connected to a rear end of the treated water outlet for storing and discharging the treated water, wherein the collecting tank is connected to the washing water nozzle. It may be configured to supply the wash water.

Located at the bottom of the filter unit may further include a scraper for collecting the suspended solids present in the upper part in the precipitation unit for transport to the wash water receiving.

The precipitation unit and the filtration unit may be provided in plurality.

According to the chemical flocculation sediment filtration apparatus according to the present embodiment,

First, the installation area is small because precipitation and filtration are performed at the same time.

Second, because of chemical coagulation using chemicals to remove soluble substances that are not removed by precipitation or filtration, it is possible to remove hardly decomposable COD or T-P (Total Phosphorus).

Third, since the precipitation efficiency is very large compared to gravity precipitation by chemical flocculation precipitation, the size of the precipitation tank can be reduced to 1/3 to 1/7 times.

Fourth, there is no fear that the suspended solids will leak to the subsequent process.

1 is a partial cutaway perspective view partially showing the chemical coagulation sedimentation filtration apparatus according to an embodiment of the present invention.
FIG. 2 is a plan view illustrating in detail the filter frame and the membrane of FIG. 1.
Figure 3 is a schematic diagram showing a chemical coagulation sedimentation filtration apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail to be easily carried out by those of ordinary skill in the art. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like elements throughout the specification.

In addition, throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding the other components unless otherwise stated.

1 is a partial cutaway perspective view partially showing the chemical coagulation sedimentation filtration apparatus according to an embodiment of the present invention, Figure 2 is a plan view showing in detail the filter frame and the filtration membrane of Figure 1, Figure 3 A schematic diagram of a chemical coagulation sedimentation filtration apparatus according to an embodiment of the present invention.

Referring to Figure 1, the chemical coagulation sedimentation filtration apparatus 100 according to the present embodiment is provided with a coagulation reaction tank 120 for agglomerating solids, a precipitation unit 140 connected to the rear end thereof to remove sedimentable solids, and an upper portion thereof. And a filter unit 150 to remove the suspended solids. The flocculation reactor 120 may aggregate the solid by administering a flocculant to the introduced wastewater. The precipitation unit 140 receives the aggregated solids and the treated water from the coagulation reaction tank 120, and may perform a function of removing the settled solids therefrom. The aggregated solids may include floating solids, and the floating solids may be filtered out of the filter unit 150.

The precipitation unit 140 includes a precipitation tank 141 and a rectifying plate 147 having a cylindrical shape therein, and the solids and the treated water transferred from the coagulation reaction tank 120 are surrounded by the rectifying plate 147. Can be accommodated. The rectifying plate 147 is located at the center of the settling tank 141 and extends by a depth set from the top to the bottom.

Referring to FIG. 2, the filtration unit 150 includes a filtration unit frame 152 forming a plurality of divided cells and a filtration cell 154 provided in each of the plurality of cells. The filter frame 152 may include a circular rim 152a and a plurality of spokes 152b extending radially from the center of the circle to the circular rim 152a. Therefore, the filtration cell 154 is partitioned by each cell by the circular rim 152a and the spoke 152b, and each cell may include a filtration membrane or a filtration membrane made of fibrous material. In addition, the rectifying plate 147 is formed at the center of the filtering unit 150 so that the spokes 152b may be integrally formed to extend radially, and the rotation driving shaft 157 may be coupled to the center of the rectifying plate 147. Can be. At this time, the rectifying plate 147 may extend in parallel with the rotation drive shaft 157 in a direction perpendicular to the surface of the filtration cell 154. The filtration unit 150 configured as described above may be installed parallel to the water surface of the treated water stored in the precipitation tank 141.

2 and 3, the washing water nozzle 161 is installed at the upper portion of the filtration unit 150, and the washing water may be sprayed downward toward the filtration cell 154 of the filtration unit 150. The lower part of the filtration cell 154 is provided with a wash water receiver 163, and may be configured to receive the washing water passing through the filtration cell 154 and discharge it to the outside. The wash water receiver 163 is installed below 50 mm to 100 mm from the filtered water surface of the treated water stored in the precipitation tank 141, whereby the wash water and the scum of the upper part can be removed at the same time. That is, the sprayed washing water may remove foreign substances attached to the filtration cell 154, and the foreign substances thus removed may be discharged to the outside together with the washing water passing through the filtration cell 154.

The discharge port end of the wash water receiver 163 is connected to the wash water discharge pipe 165, the wash water discharge pipe 165 has a pipe structure extending to the outside. In addition, an electric valve 167 may be installed at a portion of the washing water discharge pipe 165 located outside to control the opening and closing. Therefore, the electric valve 167 may open the washing water discharge pipe 165 only at the time of washing.

Meanwhile, a pressure sensor 145 is installed inside the precipitation tank 141, and a control panel 171 for controlling the driving of the washing water nozzle 161 may be installed at one side of the upper end of the precipitation tank 141. The pressure sensor 145 may be electrically connected to the control panel 171 and set to drive the washing water nozzle 161 when the pressure set by the pressure sensor 145 is reached. The control panel 171 may include a timer (not shown) separately from the pressure sensor 145 and may be set to drive the washing water nozzle 161 for a set time after the set time has elapsed even if the set pressure is not reached.

The control panel 171 operates the washing water by the pressure sensor 145 and a timer (not shown), the operation of the sludge discharge pump 149, the sludge collector driving motor, from the flow rate control of the wastewater and the coagulant flowing into the coagulation reaction tank 141. All conditions necessary for the operation of the chemical flocculation sedimentation filtration system can be controlled.

The sludge collector 142 is provided at the bottom of the sedimentation tank 141 to collect the sludge, which is a sedimentary solid that has settled to the bottom, and discharged to the outside. The rotation drive shaft 157 is positioned and coupled to the center of the filter frame 152 having a circular edge of the filter unit 150, and the rotation drive shaft 157 may be connected to the center of the sludge collector 142. The rotation drive shaft 157 is connected to the drive motor M on one side of the upper end, and the drive motor M may transmit the rotation driving force to the rotation drive shaft 157 to rotate it. The rotary drive shaft 157 may be configured to drive simultaneously with the sludge collector 142. The filtration unit 150 including the filtration cell 154 does not rotate during filtration, and may be driven to rotate only during washing. Therefore, the sludge collector 142 is also rotated at the same time when the filter cell 154 is washed. The sludge collected by the sludge collector 142 may be drawn by the sludge discharge pump 149 provided outside the precipitation unit 141 and discharged to the outside.

The settling tank 141 may include a treated water outlet 143 for discharging the treated water, and a collecting tank 173 may be provided at a rear end of the treated water outlet 143. The collection tank 173 stores and discharges the treated water, and may be connected to the washing water nozzle 161 to supply the washing water. Therefore, the collecting tank 173 may be connected to the washing water nozzle 161 through the washing water pump 162.

In addition, a scraper (not shown) may be attached to the lower portion of the filtration unit 150, and may collect and float floating materials present in the upper portion of the settling tank 141 while rotating during washing to transfer the washing water receiver 163.

Chemical coagulation sedimentation filtration apparatus 100 according to the present embodiment may be composed of a plurality in preparation for backwashing.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

100: chemical flocculation precipitation filter 120: flocculation reactor
140: sedimentation unit 141: sedimentation tank
142: sludge collector 143: treated water outlet
145: pressure sensor 147: rectifying plate
150: filter unit 152: filter unit frame
152a: round border 152b: spoke
154: filter cell 157: rotary drive shaft
161: washing water nozzle 162: washing water pump
163: wash water receiver 165: wash water discharge pipe
167: electric valve 171: control panel
173: sump tank

Claims (6)

In the apparatus installed in the wastewater treatment plant to perform the precipitation and filtration,
An agglomeration reactor for aggregating solids from the introduced wastewater by administering a flocculant;
A precipitation unit connected to a rear end of the agglomeration reactor to receive the agglomerated solids and the treated water and to remove sedimentable solids; And
Filtration part which is provided in the upper part of the precipitation unit to remove the suspended solids
Including,
The filtration unit includes a filtration frame forming a plurality of filtration cells, wherein the filtration frame has a circular outer edge, and a rotation drive shaft is positioned at the center thereof to be coupled together to rotate when the rotation drive shaft is rotated. Is configured to
And a washing water nozzle installed on the filtration cell to spray washing water into the filtration cell, wherein the washing water nozzle extends in a radial direction of the filtration unit frame. The method of claim 1,
Wherein each of the plurality of filtration cells comprises a filter cloth or a membrane of fibrous material. The method of claim 1,
A washing water receiver installed at a lower portion of the filtration cell and configured to receive the washing water passing through the filtration cell and to be discharged to the outside; And
And a washing water discharge pipe connected to the discharging port end of the washing water receiver and extending to the outside, and having an electric valve installed at the outside thereof to control opening and closing. The method of claim 1,
The pressure sensor is installed inside the precipitation portion,
A control panel electrically connected to a pressure sensor installed in the precipitation unit to control driving of the washing water nozzle, and having a timer to control driving of the washing water nozzle;
And the control panel is configured to drive the washing water nozzle when the pressure set by the pressure sensor is reached, and to drive the washing water nozzle for a set time after the elapse of time set by the timer. The method of claim 1,
The sludge collector is provided at the bottom of the sedimentation unit,
Rotation drive shaft located in the center of the filter frame is connected to the center of the sludge collector,
The rotary drive shaft is connected to the drive motor receives a driving force,
And said rotary drive shaft is configured to drive simultaneously with said sludge collector. The method of claim 1,
The settling portion includes a treated water outlet for discharging the treated water,
A catchment tank connected to a rear end of the treated water outlet to store and discharge the treated water;
And the sump tank is connected to the wash water nozzle and configured to supply the wash water.

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