JP7149702B2 - Wastewater treatment method and wastewater recycling method - Google Patents

Description

The present invention relates to a wastewater treatment method using treated water treated at a sewage treatment plant, and a wastewater recycling method using the wastewater treatment method.

It is known to use treated water treated by a sewage treatment facility as gray water.
In Patent Document 1, in a sewage treatment plant, an advanced sewage treatment facility, a water purification plant, an advanced water treatment facility, and a group of water treatment facilities having an ozone generator for advanced treatment, treated water flowing out from sewage treatment is treated. An invention of a water treatment system is described, characterized in that the amount of excess air in sewage treatment is used as air for an ozone generator in the advanced sewage treatment facility in order to perform advanced treatment to produce gray water (claim 1).

Patent Document 2 discloses a sewage treatment plant that treats sewage to a predetermined water quality level, a tower-type water tank that stores treated water obtained by the plant at a high place, and treated water treated by the sewage treatment plant. An invention of a system for utilization of treated water in a sewage treatment plant comprising pumping means for supplying water to a tower-type water tank and distribution means for distributing treated water from the tower-type water tank to demand facilities is disclosed (claim 1). It is described that the pumping means is provided with an advanced water treatment device for removing impurities contained in the treated water, and that the advanced treated water is used as gray water (claims 3 and 20).

In Patent Document 3, among a plurality of types of water including river water from a river, rainwater, and wastewater after use by a consumer, a type of water is taken according to a first water intake instruction, and the water is taken. a water purification plant facility for treating water and sending the treated water as tap water to a consumer through a tap water line; Water intake to the water purification plant equipment with reference to a reclaimed water facility that treats the water taken in and sends the treated water as gray water to consumers through a gray water line, and conditions including drought conditions and water treatment costs. Invention of a water treatment facility comprising a control device for generating the first water intake instruction for instructing the type of water to be treated and the second water intake instruction for instructing the type of water to be taken to the reclaimed water facility is described (claim 1).

JP-A-7-251186 JP-A-2000-263036 JP 2014-214550 A

The present invention is a wastewater treatment method for filtering treated water from a sewage treatment plant as raw water, and provides a wastewater treatment method that can stably and continuously perform filtration for a long period of time, and a wastewater recycling method using the same. The task is to

The present invention is a wastewater treatment method using a wastewater treatment apparatus having a raw water tank (1), a UF membrane module (2) and a filtered water tank (3),
The waste water treatment device is
The raw water tank (1) is a tank for storing treated water from the sewage treatment plant,
The raw water tank (1) and the raw water supply port of the UF membrane module (2) are connected by a raw water line (11) equipped with a UF membrane pump (21) and a first open/close valve (31),
The filtered water outlet of the UF membrane module (2) and the filtered water tank (3) are connected by a filtered water line (12) equipped with a second opening/closing valve (32),
The concentrated water outlet of the UF membrane module (2) and the raw water line (11) are connected by a concentrated water line (13) equipped with a circulation pump (22) and a third opening/closing valve (33),
Furthermore, there is a circulation line consisting of the UF membrane module (2), the concentrated water line (13), the raw water line (11) between the first opening/closing valve (31) and the UF membrane module (2), and the UF membrane module (2). and
The wastewater treatment method is
The UF membrane pump (21) is operated to open the first on-off valve (31), the second on-off valve (32), and the third on-off valve (33). Supplying from (11) to the UF membrane module (2) and processing to obtain filtered water and concentrated water;
a step of sending the filtered water from the filtered water line (12) to the filtered water tank (3) and storing the filtered water; and a step of returning the concentrated water from the concentrated water line (13) to the raw water line (11),
Furthermore, when stopping the filtration operation of the UF membrane module (2), the circulation pump (22) is operated,
A wastewater treatment method, comprising a step of circulating raw water in the circulation line with the first on-off valve (31) and the second on-off valve (32) closed and the third on-off valve (33) open. , to provide a wastewater recycling method using it.

According to the wastewater treatment method of the present invention, since it is possible to prevent the propagation of aquatic organisms when the filtration operation is stopped, it is possible to suppress the deterioration of the filtration capacity due to the clogging of the UF membrane module, so that the filtration treatment can be stably performed for a long period of time. can.

BRIEF DESCRIPTION OF THE DRAWINGS The schematic diagram of the waste water treatment apparatus used with the waste water treatment method of this invention (processing flow chart of a waste water treatment method).

<Wastewater treatment equipment>
A wastewater treatment apparatus used in the wastewater treatment method of the present invention will be described with reference to FIG.
The raw water tank 1 is a tank for storing treated water from a sewage treatment plant or a sewage treatment plant, and the treated water is sent from a sewage treated water line 10 .
The raw water may be the remaining treated water that has been primarily used as a hot water supply heat source or an air conditioning heat source by utilizing the fact that the biologically treated treated water is hot water.
A level sensor, a temperature sensor, a stirrer, an ultraviolet germicidal lamp, etc. can be attached to the raw water tank 1 as required.

A raw water supply port of the raw water tank 1 and the internal pressure type UF membrane module 2 are connected by a raw water line 11 .
The raw water line 11 has a first raw water line 11 a connected to the raw water tank 1 and a second raw water line 11 b connecting the first raw water line 11 a to the raw water supply port of the UF membrane module 2 .
A UF membrane pump 21 and a first opening/closing valve 31 are installed in the first raw water line 11a.

The internal pressure type UF membrane module 2 comprises a UF membrane housed in a casing, and a known UF membrane module can be used. The UF membrane is preferably a hollow fiber membrane.

The filtered water outlet of the UF membrane module 2 and the filtered water tank 3 are connected by a filtered water line 12 .
The filtered water line 12 has a first filtered water line 12a connected to the filtered water outlet of the UF membrane module 2 and a second filtered water line 12b connecting the first filtered water line 12a and the filtered water tank 3. there is A second open/close valve 32 is installed in the second filtered water line 12b.
A level sensor, a temperature sensor, a stirrer, an ultraviolet sterilization lamp, etc. can be attached to the filtered water tank 3 as necessary, but among these, it is preferable to attach a level sensor for detecting the water level.

A concentrated water outlet of the UF membrane module 2 and the raw water line 11 are connected by a concentrated water line 13 .
A circulation pump 22 and a third on-off valve 33 are installed in the concentrated water line 13 .

The waste water treatment apparatus shown in FIG. 1 has a back pressure cleaning pump 23 and a chemical liquid tank 4 for carrying out the back pressure cleaning process.
The filtered water tank 3 and the back pressure cleaning pump 23 are connected by the first back pressure cleaning water line 14 provided with the fourth opening/closing valve 34, and the back pressure cleaning pump 23 and the filtered water line 12 are connected to the second back pressure cleaning. A water line 15 is connected. As a result, the filtered water tank 3 and the filtered water outlet of the UF membrane module 2 are connected by the first back pressure washing water line 14, the second back pressure washing water line 15 and the filtered water line 12 (first filtered water line 12a). ing.

The raw water line 11 (second raw water line 11b) of the UF membrane module 2 and the first drainage line 16 of the back pressure washing water are connected, and the first drainage line 16 is connected to the fifth opening/closing valve (three-way valve) 35. , the fifth open/close valve (three-way valve) 35 is connected to the second drain line 19 .

The chemical liquid tank 4 and the second back pressure washing water line 15 are connected by a chemical liquid supply line 17 . The chemical supply line 17 may be provided with a pump and an opening/closing valve for supplying the chemical as required.

The wastewater treatment apparatus shown in FIG. It has a circulation line to the concentrated water outlet.
The circulation line can be made into a closed circulation line by opening and closing the first opening/closing valve 31, the third opening/closing valve 33, and the fifth opening/closing valve.

<Wastewater treatment method>
A wastewater treatment method using the wastewater treatment apparatus shown in FIG. 1 will be described.
The UF membrane pump 21 is operated, the first opening/closing valve 31, the second opening/closing valve 32 and the third opening/closing valve 33 are opened, and the fifth opening/closing valve 35 is closed. It is supplied to the UF membrane module 2 and processed to obtain filtered water and concentrated water. During filtration operation, the circulation pump 22 can be operated together with the UF membrane pump 21 as required.
The UF membrane module 2 performs cross-flow filtration. The raw water is filtered by flowing parallel to the UF membrane (hollow fiber membrane) surface, and the filtered water enters the inside of the UF membrane (hollow fiber membrane), and then flows from the filtered water outlet to the filtered water line 12 (first filtration It enters the water line 12a) and the concentrate enters the concentrate line 13 from the concentrate outlet.

The filtered water filtered by the UF membrane module 2 is sent from the filtered water line 12 to the filtered water tank 3 and stored therein.
Even if bacteria such as general bacteria and Escherichia coli exist in the raw water, they are separated by the UF membrane module 2, so the filtered water does not contain bacteria.
The filtered water stored in the filtered water tank 3 can be collected as gray water from the collecting line 18 and used for flushing toilets, watering trees and flower beds, and the like.

The concentrated water filtered by the UF membrane module 2 is sent from the concentrated water line 13 to the raw water line 11 (second raw water line 11b), mixed with the raw water, and filtered by the UF membrane module 2 again. During the filtration operation, such a filtration process is repeated.

If the filtration operation is continued, the filtration performance of the UF membrane module 2 deteriorates. Therefore, it is preferable to perform back pressure washing after stopping the filtration operation after the filtration operation for a certain period of time. For example, back pressure washing can be performed for about 0.5 to 5 minutes every 40 to 80 minutes of filtration operation.

Back pressure cleaning is performed by opening the fourth opening/closing valve 34 and activating the back pressure cleaning pump 23 to remove filtered water from the filtered water tank 3 from the first back pressure cleaning water line 14 and the second back pressure cleaning water line 15. It is sent to the filtered water line 12 (first filtered water line 12a). At this time, the chemical solution (sodium hypochlorite aqueous solution) in the chemical solution tank 4 is supplied from the chemical solution line 17 to the second back pressure washing water line 15 .
After that, the backwash water is supplied from the filtered water line 12 (first filtered water line 12a) to the filtered water outlet of the UF membrane module 2 and discharged from the raw water supply port. Since pressure is applied from the inside of the UF membrane (hollow fiber membrane) to the outside of the membrane by this back pressure washing, suspended solids adhering to the membrane surface are removed and the filtration performance is recovered.
Washing water after the back pressure washing is discharged as sewage from the first water drain line 16 and the second water drain line 19 with the fifth on-off valve (three-way valve) 35 opened. The washing wastewater is sent to the sewage treatment plant again, and part of the treated water is used as raw water for the wastewater treatment method of the present invention.

The filtration operation of the UF membrane module 2 is stopped at night and until it is restarted the next morning, raw water, which is treated water from the sewage treatment plant, remains in the UF membrane module 2 . It should be noted that the suspension of the filtration operation is not limited to nighttime, and may also occur during the daytime.
Raw water (treated water from sewage treatment plants) often contains eggs and larvae of aquatic organisms. larvae, daphnids, etc. are often mixed in.
If the eggs and larvae are contained in this way, they will multiply in the UF membrane module 2 while the filtration operation is stopped, and when the filtration operation is restarted the next morning, the UF membrane itself will be clogged. As a result, the filtration performance is remarkably lowered, the number of times of back pressure washing needs to be increased, and the replacement life of the UF membrane is also shortened.

In the waste water treatment method of the present invention, in order to prevent such problems from occurring, while the filtration operation is stopped, the circulation pump 22 is operated, the first opening and closing valve 31 and the second opening and closing valve 32, the second 5. With the open/close valve 35 closed and the third open/close valve 33 open, the raw water in the circulation line is circulated.
The circulation flow rate in the circulation line is preferably in the range in which the linear velocity in the UF membrane module 2 is 0.1 to 0.3 m/sec.
By carrying out such circulation operation, it is possible to suppress the breeding of aquatic organisms in the UF membrane module 2 while the filtration operation is stopped.

Switching between filtration operation and circulation operation can be automatically performed.
For example, by means of a level sensor attached to the filtered water tank 3, when the filtered water tank 3 reaches a predetermined water level (full or nearly full), the filtration operation is automatically stopped, and then the circulation operation is automatically started. After the circulation operation is automatically stopped when the water tank 3 falls below a predetermined water level (a water level lower than the full water level or a nearly full water level), the filtration operation can be automatically restarted.
In addition, the filtration operation and the circulation operation can be switched by the operator's operation according to the same guideline.

<Wastewater recycling method>
The waste water recycling method of the present invention is a waste water recycling method using the waste water treatment method described above.
The treated water (raw water) after being treated at the sewage treatment plant is used primarily as needed, and part of the water that is not used primarily is sent to the raw water tank 1 shown in FIG. Obtain filtered water by implementing the wastewater treatment method.
The filtered water in the filtered water tank 3 is used as gray water containing toilet flush water in a large-scale facility, and toilet flush water is returned to a sewage treatment plant through a sewage system.
Large-scale facilities include, for example, large-scale commercial facilities with a total sales floor area of ^10,000m2 or more, large-scale entertainment facilities with an area equal to or larger than that, large-scale office buildings (multiple office buildings), and schools. , a combination of multiple facilities such as hospitals, etc.
In large-scale facilities, there are many people in the daytime, so the number of times the toilet is used increases, and the amount of flush water used in the toilet increases. Using tap water as flush water for this toilet wastes water resources, but using filtered water (recycled water) can save water resources.
Also, in large-scale facilities, there are almost no people at night, so toilets are hardly used. Therefore, since filtered water is no longer required, the filtration operation is stopped. By carrying out the wastewater treatment method of the present invention during that time, it is possible to suppress the breeding of aquatic organisms while the filtration operation is stopped. The operation can be restarted quickly, and the filtered water that has been consumed can be replenished.
It should be noted that automatic switching between the filtration operation and the circulation operation is preferable because it is easy to deal with even when large-scale commercial facilities and large-scale entertainment facilities are temporarily closed during the daytime.

Example 1
A wastewater treatment method was implemented using the wastewater treatment apparatus shown in FIG.
(Raw water)
Raw water supply: Treated water from a sewage treatment plant Water temperature: 15-35°C
Turbidity: 0.5-2.0 NTU
Aquatic organisms: Larvae of Daphnia, Waterworm, and Chironomid were confirmed in 500 ml of treated water.

(Wastewater treatment equipment)
UF membrane module: FZ50-AC-FUC1582, hollow fiber membrane module of Daisen Membrane Systems Co., Ltd. Number of UF membrane modules: 6 (parallel arrangement)
Raw water tank capacity: 10m ³
Filtered water tank capacity: 150m ³

(Filtration operation)
Filtration time: 60 minutes Back pressure cleaning time: 1 minute Filtration flow rate: 5-10 m ³ /h
Back pressure washing water flow rate: 60-70m ³ /h
Operating hours: 12-20 hours (average 14 hours)/day

Filtration operation was performed under the above conditions. After stopping the filtration operation, circulation operation (in-membrane linear velocity 0.2 m/sec, circulation flow rate 40 m ³ /h) was performed for 9 to 12 hours (average 10 hours), and this was repeated for 6 months.
As a result, after 6 months, the transmembrane pressure of the UF membrane module (the pressure difference between the raw water supply port and the filtered water outlet of the UF membrane module) increased from 20 kPa at the beginning of the operation to 40 kPa.
In addition, the transmembrane pressure difference when the circulation operation was not performed (for 6 months) before applying the waste water treatment method of the present invention increased from 20 kPa at the beginning of the operation to 120 kPa.
From these results, it was confirmed that the wastewater treatment method of the present invention, in which the circulation operation was carried out when the filtration operation was stopped, was highly effective.

The wastewater treatment method of the present invention can be used as a method for supplying toilet flush water in large-scale commercial facilities, large-scale entertainment facilities, etc. where toilets are frequently used during the daytime.

1 Raw water tank 2 UF membrane module 3 Filtered water tank 4 Chemical liquid tank 10 Treated sewage water line 11 Raw water line 11a First raw water line 11b Second raw water line 12 Filtered water line 12a First filtered water line 12b Second filtered water line 13 Concentration Water line 14 First back pressure washing water line 15 Second back pressure washing water line 17 Chemical solution supply line 18 Filtrate water sampling line 19 Drainage line 21 UF membrane pump 22 Circulation pump 23 Back pressure washing pumps 31 to 35 First opening/closing valve ~ 5th open/close valve

Claims (4)

A wastewater treatment method using a wastewater treatment apparatus having a raw water tank (1), a UF membrane module (2) and a filtered water tank (3),
The waste water treatment device is
The raw water tank (1) is a tank for storing treated water from the sewage treatment plant,
The raw water tank (1) and the raw water supply port of the UF membrane module (2) are connected by a raw water line (11) equipped with a UF membrane pump (21) and a first open/close valve (31),
The filtered water outlet of the UF membrane module (2) and the filtered water tank (3) are connected by a filtered water line (12) equipped with a second opening/closing valve (32),
The concentrated water outlet of the UF membrane module (2) and the raw water line (11) are connected by a concentrated water line (13) equipped with a circulation pump (22) and a third opening/closing valve (33),
Furthermore, there is a circulation line consisting of the UF membrane module (2), the concentrated water line (13), the raw water line (11) between the first opening/closing valve (31) and the UF membrane module (2), and the UF membrane module (2). and a water cooler is not connected to the circulation line,
The wastewater treatment method is
The UF membrane pump (21) is operated to open the first on-off valve (31), the second on-off valve (32), and the third on-off valve (33). Supplying from (11) to the UF membrane module (2) and processing to obtain filtered water and concentrated water;
a step of sending the filtered water from the filtered water line (12) to the filtered water tank (3) and storing the filtered water; and a step of returning the concentrated water from the concentrated water line (13) to the raw water line (11),
Furthermore, when stopping the filtration operation of the UF membrane module (2), the circulation pump (22) is operated, the first on-off valve (31) and the second on-off valve (32) are closed, and the third on-off valve (33) is closed. It has a step of circulating the raw water in the circulation line in an open state at a linear velocity in the membrane of 0.1 to 0.3 m / sec, wherein no surfactant for washing is added to the raw water, and the A wastewater treatment method in which the raw water in the circulation line is neither sterilized nor cooled. Claim 1, comprising a step of stopping the filtration operation and performing back pressure washing, wherein the back pressure washing step is performed for 0.5 to 5 minutes every 40 to 80 minutes of filtration operation. The described wastewater treatment method. After the wastewater treatment equipment is equipped with a level sensor for detecting the water level in the filtered water tank (3), and the filtration operation is automatically stopped when the filtered water tank (3) reaches a predetermined water level. , Circulation operation is automatically started, and when the filtered water tank (3) drops below a predetermined water level, circulation operation is automatically stopped, and then filtration operation is automatically restarted. The wastewater treatment method according to claim 1 or 2, wherein A wastewater recycling method using the wastewater treatment method according to any one of claims 1 to 3,
The raw water in the raw water tank (1) is treated water from a sewage treatment plant,
The filtered water in the filtered water tank (3) is used as gray water including toilet flush water in large-scale facilities,
A wastewater recycling method in which toilet flushing wastewater is returned to a sewage treatment plant via the sewage system.

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