KR19990036453A - Multi-Parallel Biofilm Filtration Wastewater Treatment System - Google Patents

Abstract

The present invention relates to a multi-parallel biofilm filtration wastewater treatment device, a decay-type clarification tank 10 in which the solids and the like of the incoming raw waste water are sedimented and a flow rate adjustment tank for temporarily storing and storing the wastewater from which the solids are separated. (12), two or more tubular biofilm filtration tanks 20 for treating wastewater contaminants by passing the wastewater of the flow rate adjustment tank 12 upwardly through a biofilm filled with a medium having microorganisms attached thereto, and the biofilm filtration tank described above. Washing water for washing the biofilm of the tubular biofilm filtration tank 20 by passing the treated water tank 28 temporarily stored before discharging the treated water at 20 and a partial treatment water of the treated water tank 28 from the top down. The tubular biofilm filtration of the washing water storage tank (36) for storing the wastewater, the wastewater transfer means for transferring the tubular biofilm filtration tank (20) from the flow rate adjusting tank (12), and the treated water of the treatment tank (28). The treatment water conveying pipe 40 for connecting the washing water conveying means for conveying to the upper part of the 20, the upper part of the biofilm filtration tank 20, and the flow rate adjusting tank 12 to convey a part of the treated water to the flow rate adjusting tank. And, the washing water storage tank 36 and the decay-type purification tank 10 is connected to the washing water conveying pipe 38 for conveying the washing water to the decay-type purification tank 10, two or more biofilm filtration tank 20 The present invention relates to a multi-parallel biofilm filtration wastewater treatment device that is easy to maintain and expand and to improve its efficiency by adjusting its flow rate.

Description

Wastewater Treatment System with Parallel Biological Filter Beds

The present invention relates to a multi-parallel biofilm filtration wastewater treatment device, and more specifically, all sludges are stored in a decay purification tank, and two or more biofilm filtration tanks are installed and used for easy maintenance and expansion, and a flow rate adjustment tank and a washing water storage tank. In addition, the present invention relates to a multi-parallel biofilm filtration wastewater treatment device which increases wastewater treatment efficiency.

In general, wastewater treatment can be classified into physical treatment, chemical treatment, and biological treatment. Most wastewater treatment devices vary in composition depending on major pollutants, but they are used in combination.

Biofilm filtration, known as the latest technology in dual biological treatments, has high treatment efficiency, can be installed on a small site, and can be manufactured in a hermetic manner, which does not cause odors and is easy to automate operation.

Figure 2 schematically shows a wastewater treatment process employing a conventional biofilm filtration method, a screen tank for the separation of contaminants and a flow adjustment tank for the uniform transport of wastewater, a biofilm filtration tank for decomposing and removing contaminants in the wastewater, treated water It is composed of a treatment tank for temporary storage and cleaning of the filter medium of the biofilm filtration tank, a sludge separator for precipitating and separating microbial sludge grown in the biofilm filtration tank, and a sludge concentration storage tank having a long-term storage function of the sludge. In the biofilm filtration tank which has a biodegradation function of the double contaminants, the filter material is filled inside and the contaminants in the water are decomposed and purified by the microorganisms attached to the filter medium. Such filter media typically have a small size of about 2-5 mm, and at the same time, to filter not only pollutants present in the water but also suspended matter floating in the water.

The sludge separator is then used to separate the microbial sludge, and the separated sludge is stored for a long time in the sludge concentration storage tank, and the supernatant water is returned for reprocessing.

However, the biofilm filtration tank has a disadvantage in that sludge is excessively multiplied in the filter medium and obstructs the wastewater flow unless the filter medium filled therein is not properly cleaned, and thus the treatment efficiency drops rapidly.

In order to alleviate the above disadvantages, the filter medium of the biofilm filtration tank should be periodically cleaned. The cleaning method of the filter medium that is generally adopted is to wash the sludge by temporarily passing the treated water at a suitable speed in the direction opposite to the passage direction of the waste water filter tank. . The cleaning effect of the filter medium is determined by the speed of backwash, and the filter medium must be cleaned at an appropriate speed.

In order to clean such a filter medium, a separate pump is provided to clean by starting the pump. Significant power is required for efficient cleaning.

This causes the disadvantage that the facility power of the wastewater treatment apparatus by biofilm filtration must be very large.

Once again, the wastewater treatment apparatus using the conventional biofilm treatment method, first, the screen room to remove the contaminants, the contaminants removed by the screen must be collected and disposed of every day, a separate sludge separator to remove the microbial sludge The sludge must be made for long-term storage of sludge, etc. as underground facilities.

It is also common to manufacture the device from one or several large steel structures to reduce the number of structures as much as possible, but in this case the capacity of the pump required to clean the filter media must be very large, and if the biofilm filter tank is abnormal, such as clogging of the filter media. In case of operation at, the processing efficiency drops drastically. In this case, the operation of the device should be stopped and repaired.

The present invention is to solve the above problems, does not require a separate screen room, can collect all the solids or sludge in one septic tank, does not require a large power for cleaning the biofilm, clogging phenomenon of the biofilm It is an object of the present invention to provide a wastewater treatment apparatus that can continue to operate the apparatus even if it occurs.

The present invention for achieving the above object is a decay-type septic tank for sedimentation and separation of the solid waste of the introduced raw waste water, flow rate adjusting tank for temporarily adjusting the flow rate of the waste water from which the solid matter is separated, wastewater of the flow rate adjusting tank At least two tubular biofilm filtration tanks which pass through the biofilm filled with the media attached to the microorganisms upwards to treat contaminants of the wastewater, and a treatment tank for temporarily storing the treated water in the biofilm filtration tank before discharge. A washing water storage tank for storing the washing water from which the biofilm of the tubular biofilm filtration tank is washed by passing a portion of the treated water of the treatment tank downward, a wastewater transfer means for transferring from the flow rate adjusting tank to the tubular biofilm filtration tank, and the treatment tank Washing water transfer means for transferring the treated water to the upper portion of the tubular biofilm filtration tank, And the flow rate adjusting tank connected to the treated water conveying pipe for conveying a part of the treated water to the flow rate adjusting tank, and the washing water storage tank and the decaying septic tank connected to the washing water conveying pipe for conveying the washing water to the decaying septic tank. Provided is a multiple parallel wastewater treatment device.

Each of the tubular biofilm filtration tanks is provided with a wastewater inlet pipe and a washing water discharge pipe having a valve at the bottom thereof, a treated water discharge pipe having a valve at the top thereof, and a washing water inlet pipe for washing the biofilm, respectively. It is desirable to be able to perform the wastewater treatment operation and the cleaning operation through.

In addition, the wastewater inlet pipe is preferably provided with an oxygen supply means for supplying oxygen to the wastewater.

In addition, it is preferable that a pressurizing device is added to the treated water discharge pipe to maintain a constant pressure inside the tubular biofilm filtration tank.

1 is a block diagram of a wastewater treatment apparatus according to the present invention,

2 is a flow chart of a conventional wastewater treatment apparatus,

3 is a flow chart of the wastewater treatment apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: decay type septic tank 12: flow rate adjustment tank

14 wastewater transfer pump 16: wastewater inlet pipe

18: oxygen 20: biofilm filtration tank

22: filter medium 24: treated water discharge pipe

26 pressurization device 28 treatment tank

30: washing water transfer pump 32: washing water inlet pipe

34: washing water discharge pipe 36: washing water storage tank

38: washing water return pipe 40: treated water return pipe

Hereinafter, a preferred embodiment of the wastewater treatment apparatus according to the present invention will be described in detail with reference to the drawings.

Figure 1 shows an embodiment of the wastewater treatment apparatus of the present invention, the solids and the like of the raw wastewater introduced from the decay-type purification tank 10 is sedimentation, and the wastewater from the solids and the like separated in the flow rate adjustment tank 12 Temporarily stored, the wastewater of the flow rate adjustment tank 12 is supplied with oxygen from the oxygen supply device 18 through the wastewater inlet pipe 16 by the wastewater transfer pump 14 to a plurality of tubular biofilm filtration tank 20. The contaminants are transported from the tubular biofilm filtration tank 20 while the wastewater is passed upward through the biofilm filled with the medium 22 attached to the microorganisms, and the treated water is installed on the tubular biofilm filtration tank 20. It is discharged through the treated water discharge pipe 24.

It is preferable to apply pressure in order to increase the wastewater treatment efficiency of the tubular biofilm filtration tank 20, which may be achieved through a pressurization device 26 installed in the treated water discharge pipe 24.

The treated water is transferred to the treated water tank 28 through the treated water discharge pipe 24, and the treated water of the treated water tank 28 is discharged. A part of the treated water stored in the treated water tank 28 is used as washing water for washing the biofilm of the tubular biofilm filtration tank 20, for this purpose, through the washing water inlet pipe 32 by driving the washing water transfer pump 30. The tubular biofilm filtration tank 18 carries the washing water to wash the biofilm.

The washing water including sludge and the like separated from the biofilm at the time of washing is transferred to the washing water storage tank 36 through the washing water discharge pipe 34 and returned from the washing water storage tank 36 to the decayed purification tank 10.

The above process is shown in the flow chart of the wastewater treatment apparatus of the present invention of FIG.

When described in detail for each device, first, the decay-type septic tank 10 is a device that collects all the sludge and the like long-term storage of the wastewater treatment apparatus of the present invention is separated some of the contaminants or suspended matter contained in the original wastewater. In addition, the washing water including sludge from the washing water storage tank 36 is introduced at a constant speed so that the sludge can be collected in the decayed purification tank 10.

At this time, if there is no washing water storage tank 36, the washed water is directly introduced into the decayed septic tank 10, the sudden inflow impedes the sedimentation action in the decayed septic tank 10 to adversely affect the subsequent wastewater treatment efficiency. do.

In addition, the flow rate adjustment tank 12 is a device for maintaining a constant amount of wastewater supplied to the biofilm filtration tank 20 and adjusting the concentration, and sudden change in concentration or amount of wastewater introduced from the decay type purification tank 10. It is to increase the wastewater treatment efficiency by minimizing the amount or concentration change by using some of the treated water.

Since the tubular biofilm filtration tank 20 is filled with the filter medium attached to the aerobic microorganisms is a device for filtering various organic materials and suspended substances while the wastewater passes through the biofilm filled with the filter media, a plurality of tubular biofilm filtration tank 20 Are connected in parallel, reducing the power required for biofilm cleaning and allowing the number to be adjusted to match the wastewater flow rate. And even if one biofilm filtration tank 20 is in need of maintenance, it does not affect the operation of the entire apparatus, so that the continuous wastewater treatment is possible.

In addition, the wastewater inlet pipe (16) and the washing water discharge pipe (34) provided with a valve under the biofilm filtration tank (20), the treatment water discharge pipe (24) provided with a valve above, and the washing water inlet pipe (32) for washing the biofilm The wastewater treatment operation and the washing operation can be performed through the valve operation of each tubular biofilm filtration tank 20. That is, the biofilm cleaning can be performed by opening and closing the valve of the washing water inlet pipe 32 and the washing water discharge pipe 34 and operating the washing water transfer pump 30.

Therefore, the wastewater treatment apparatus of the present invention solves the removal of the contaminants and the long-term storage of the microbial sludge in one decay septic tank 10 to improve the complexity of the contaminant and sludge treatment, and pipe the biofilm filtration tank 20 instead of one large structure. It is possible to reduce the power for backwashing of the biofilm filtration tank 20 by using the piping material sold for the material as a material or by making several steel structures of relatively small size and connecting them in parallel according to the generated flow rate of the wastewater. will be. In addition, the washing water generated after backwashing is temporarily stored in a relatively small sized washing water storage tank 36 instead of a separate sludge separator, and then stored for a long time in the decayed purification tank 10.

That is, in the conventional method, the screen, the flow adjustment tank, the sludge concentration storage tank, the treatment tank, and the discharge tank should be made into separate concrete structures for sludge treatment. However, in the method of treating the waste water using the apparatus of the present invention, the screen tank or the sludge concentration storage tank is used. Instead, the installation of the decay type septic tank 10 in the inlet of the waste water is finished the sludge disposal.

The production of the biofilm filtration tank 20 is also easy to manufacture than to manufacture a biofilm filtration tank, because it is only necessary to buy a pipe material to be sold and cut to a desired length and then slightly processed.

Example 1

The wastewater treatment system was designed to process wastewater with 100 tons per day, 200ppm of sewage inflow and 10ppm of BOD.

The specification was as follows.

Biofilm filtration tank size: Φ700 × 3,000H × 10sets (parallel connection)

Washing water reservoir size: Φ700 × 3,000H

Treatment tank size: 1.2m ³ or more

Washing water transfer pump capacity: 30m ³ / hr or more, power: 380V, 3 phase, 2.2Kw

Table 1 shows the results of treatment of domestic sewage by the apparatus of Example 1, and it can be seen that the water quality of the treated water shows a very stable treatment of BOD 10 ppm or less after about 20 days after the start of operation.

Elapsed days Influent BOD (ppm) Treated water BOD (ppm) One 154 45 3 123 34 5 187 23 7 205 21 10 134 23 15 158 16 20 169 9 25 174 6 30 134 8

In contrast to the conventional wastewater treatment apparatus, that is, the wastewater treatment apparatus using the biofilm filtration method shown in Figure 2, the same treatment capacity as in Example 1, that is, the wastewater flow rate is 100 tons per day and the wastewater inflow BOD is 200ppm and the discharge water Wastewater treatment system that can process BOD of 10ppm should use biofilm filtration tank of more than double diameter and should use more than 100m ³ / hr capacity of washing water transfer pump. The required power is 380V, 3 phase, 7.5Kw Takes.

Therefore, the wastewater treatment apparatus of the present invention can use a smaller size of the biofilm filtration tank than the conventional one, it is possible to reduce the power of the washing water to 1/3 or less.

By using the wastewater treatment apparatus of the present invention as described above, the process of disposing of contaminants and sludge is relatively simple, the treatment efficiency is good, the power consumption is low, and the individual maintenance of the individual biofilm filtration tanks is possible. It is not necessary, and even if the capacity is increased, it is relatively easy to increase the capacity of the facility by installing several additional biofilm filtration tanks.

Claims (4)

The decay-type clarification tank 10 in which the solids and the like of precipitated raw wastewater are sedimented and separated, the flow rate adjustment tank 12 for temporarily storing and storing the wastewater from which the solids are separated, and the wastewater of the flow rate adjustment tank 12 are microorganisms. Two or more tubular biofilm filtration tanks 20 which pass upwardly through the biofilm filled with the attached media to treat contaminants in the wastewater, and temporarily store the treated water before discharged from the biofilm filtration tank 20 described above. The washing water storage tank 36 which stores the washing water which wash | cleaned the biofilm of the said tubular biofilm filtration tank 20 by passing the process water tank 28 and some treated water of the process water tank 28 top-down, and the said flow regulating tank ( Waste water transfer means for transferring to the tubular biofilm filtration tank 20 in 12), and washing water transfer means for transferring the treated water of the treatment water tank 28 to the upper portion of the tubular biofilm filtration tank 20, the biofilm filtration tank (2 0) and the flow rate adjustment tank 12 is connected to the treated water conveying pipe 40 for conveying a portion of the treated water to the flow rate adjustment tank, the washing water storage tank 36 and the decay type purification tank 10 is connected A multiple parallel wastewater treatment device comprising a washing water conveying pipe (38) for conveying the washing water to the decayed septic tank (10). The tubular biofilm filtration tank (20) according to claim 1, wherein each of the tubular biofilm filtration tanks (20) includes a wastewater inflow pipe (16) and a washing water discharge pipe (34) provided with a valve at the bottom thereof. The washing water inlet pipe (32) for washing is a multi-parallel wastewater treatment device, characterized in that through the valve operation of each tubular biofilm filtration tank 20 to perform the wastewater treatment operation and the cleaning operation. 3. The apparatus of claim 2, wherein the wastewater inlet pipe (16) is provided with oxygen supply means for supplying oxygen to the wastewater. 3. The multiple parallel wastewater treatment apparatus according to claim 2, wherein a pressurization device (26) for maintaining a constant pressure inside the tubular biofilm filtration tank (20) is added to the treated water discharge pipe (24).