JP2012148258A - System and method for treating exhaust heat recovering hybrid membrane - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system and a method by which clarifying treatment and water temperature lowering treatment are carried out to miscellaneous waste water to enable reutilization and discharge to a rain water system.SOLUTION: The miscellaneous waste water is clarified by a membrane filter and water temperature of the clarified wastewater is lowered by a heat pump. The membrane filter is designed according to the miscellaneous waste water to attain clarification of BOD 2 mg/L and water temperature is lowered below prescribed temperature of ≤25°C. Thereby reutilization and discharge to the rain water system without giving influence to a natural environment can be attained.

Description

The present invention relates to a waste heat recovery hybrid membrane treatment system and method for performing a process of recovering waste heat and reducing waste water temperature while purifying miscellaneous waste water discharged from a building by membrane treatment.

  Sewage / miscellaneous wastewater discharged from buildings is discharged into sewer pipes, treated at sewage treatment plants, and then discharged into rivers. However, it has the following problems. (1) In the combined sewage treatment area in 191 cities such as Tokyo, if it rains more than a certain amount, it is discharged into the river or the sea without treatment, causing red tide. It is also a major problem from the viewpoint of bad odor and public health. (2) The so-called “thermal pollution” that the sewage-treated wastewater has a high temperature and affects the ecosystem has occurred. For example, it has been reported that tropical fish (including those that disrupt ecosystems such as piranhas) bred as pets lived in rivers overwintering. (3) The river flow under normal conditions is reduced due to the artificial water circulation system (sampled upstream of the river, discharged through the water pipe and sewage pipe at the mouth of the river), and hindrance to the fish.

  From the standpoint of a large-scale drainage company that discharges a lot of miscellaneous wastewater such as accommodation facilities and bathing facilities, water and sewage charges are provided if advanced treatment is performed at the source and reused as reclaimed water, and surplus water is discharged into rainwater systems. This leads to a reduction. In addition, after purifying miscellaneous wastewater, heat exhaust heat can be recovered to reduce fuel costs and CO2 emissions, and also lower the wastewater temperature and discharge it into the rainwater system. The problem can be solved, and the problem of reducing the amount of river water is alleviated. However, a system for purifying miscellaneous wastewater and reducing wastewater temperature by recovering heat for these purposes has not been known.

Of course, a system for the purpose of purification only and a system for the purpose of lowering the water temperature only have been known.
As a membrane filtration system for the purpose of purification, a membrane filtration system using a microfiltration membrane, an ultrafiltration membrane, a reverse osmosis membrane, or an MBR (membrane separation activated sludge tank) has been known.
As a system for reducing the water temperature, Patent Document 1 discloses an apparatus for recovering heat from bathroom drainage and supplying heat to bathroom water supply using a heat pump.
However, these systems were not designed to be reused or discharged into a stormwater treatment system, and were not optimized for these purposes.
Moreover, in the system disclosed in Patent Document 1, there is a case where the bathroom drainage is allowed to flow into the heat pump without much purification, and the heat exchange part needs to be frequently cleaned or replaced in order to maintain the heat exchange efficiency of the heat pump. there were.

JP 2008-180398 A

“Introduction of submerged membrane”: http://env.kubota.co.jp/ekityumaku/introduce.html "About Heat Pump System": http://www.zeneral.co.jp/sikumi/sikumi.html

  To provide a system and method capable of performing purification treatment and water temperature lowering treatment on miscellaneous wastewater, reusing it, and discharging it into a rainwater system.

The exhaust heat recovery hybrid membrane processing system of the present invention is
Equipped with wastewater treatment equipment to purify miscellaneous wastewater (primary wastewater)
A heat pump for transferring heat from the waste water after treatment by the waste water treatment device (secondary waste water) to tap water,
The temperature of the waste water (final waste water) after the treatment by the heat pump is lower than a predetermined temperature of 25 ° C. or less.
Here, “miscellaneous wastewater” refers to facilities or household wastewater other than toilets or rainwater. Drainage from warm bath facilities and wastewater from hotel kitchens are included in miscellaneous wastewater. As described above, there are many miscellaneous wastewaters having a high water temperature and containing pollutants.
Water quality that can be reused and discharged into the rainwater system is achieved by performing water purification treatment on miscellaneous wastewater using a wastewater treatment device and water temperature reduction treatment using a heat pump.
The waste water treatment device is intended to make the degree of contamination of the secondary waste water sufficiently low according to the quality of the primary waste water. Since the secondary wastewater is subjected to a water temperature lowering process and becomes final wastewater, the degree of contamination of the secondary wastewater (content of chemical substances, living organisms, etc.) is almost the degree of contamination of the final wastewater. What is necessary is just to design the specific form of a waste water treatment apparatus according to the contamination degree of primary waste water.
The water temperature lowering process uses a heat pump. The heat pump has high heat recovery efficiency and can efficiently reduce the water temperature. The heat of the secondary drainage is transferred to tap water, but in warm bathing facilities, etc., tap water that has received heat can be used as bath water.
Since the final wastewater is discharged into the rainwater system so as not to cause thermal pollution, the temperature of the final wastewater is set to a temperature lower than a predetermined temperature. Here, the “predetermined temperature” is preferably a temperature lower than the surrounding river water temperature. However, a system that can respond to the temperature of the surrounding rivers that changes with the seasons becomes large. Therefore, the temperature is set to 25 ° C. or less so as not to cause large heat contamination. In addition, there is a report that the temperature of the waste water after the sewage treatment is 25 ° C. or more, which causes thermal contamination. The thermal pollution prevention effect may be enhanced by changing the predetermined temperature seasonally, such as 25 ° C. in summer and 20 ° C. in other seasons.
As described above, a final drainage having a low temperature with low contamination and no thermal contamination can be obtained. This final drainage can be reused for sprinkling, middle water, etc. It can also be discharged into the rainwater system.

The exhaust heat recovery hybrid membrane processing system of the present invention is
The waste water treatment device is a membrane filtration device,
The BOD of the final waste water is 2 mg / l or less.
As an index for measuring the degree of pollution of the final wastewater, it is common to use BOD (biochemical oxygen demand) in the case of river discharge. A BOD of 2 mg / l is realized by using any of a membrane filtration device including a microfiltration membrane, an ultrafiltration membrane, a reverse osmosis membrane, and an MBR (membrane separation activated sludge tank) as a wastewater treatment device. Which membrane filtration device is used may be designed according to the degree of contamination of the primary drainage.
In addition, after removing hair etc. using a screen etc., it is highly processed by a membrane filtration device, so BOD is reduced and oil and fats such as soap are removed, and the heat exchange part of the heat pump is frequently cleaned or There is no need to replace it.

The exhaust heat recovery hybrid membrane processing system of the present invention is
A pipe for using the final wastewater as water spray or medium water;
And a pipe for allowing the final drainage to flow into a rainwater system.
The final drainage with a low water temperature and a low degree of pollution can be used as water spray or intermediate water, and there is no thermal pollution even if it is discharged into a rainwater ditch.
By separately providing a pipe for use as sprinkling or middle water and a pipe for flowing into the rainwater system, priority is given to the use as sprinkling or middle water, and the amount remaining without being used as sprinkling or middle water Can be discharged into the rainwater system.
Here, “watering” refers to water that is sown without being collected later, water that is used for planting, water that is used as landscape water for ponds, waterfalls, etc., on the streets and rooftops to lower the temperature. Includes water that is sown and water that is sown for melting snow.
“Medium water” means water other than “water supply” that is recycled or discharged to the sewer and is used directly from the water supply. Is not included).

The exhaust heat recovery hybrid membrane treatment method of the present invention comprises:
Purification treatment for purifying miscellaneous wastewater (primary wastewater);
A heat exchange process for transferring heat from the waste water after the purification treatment (secondary waste water) to the tap water using a heat pump,
The temperature of the waste water (final waste water) after the heat exchange treatment is lower than a predetermined temperature of 25 ° C. or lower.

The exhaust heat recovery hybrid membrane treatment method of the present invention comprises:
The purification treatment uses a membrane filtration device,
The BOD of the final waste water is 2 mg / l or less.

The exhaust heat recovery hybrid membrane treatment method of the present invention comprises:
The final drainage is used as water spray or intermediate water, and the portion not used as water spray or intermediate water is discharged into a rainwater system.
The final drainage can be used efficiently by using it as watering or middle water and discharging the remaining water into the rainwater system.

It becomes possible to treat miscellaneous wastewater, reuse it, and discharge it into the rainwater system.
As a result, compared to the case where miscellaneous wastewater is discharged into the sewage system, the biochemical pollution and thermal pollution of the discharged river or ocean are alleviated, and the problem of river water volume reduction is also alleviated.
For business operators, the reuse of water will save water charges, and the release to rainwater will save sewage charges.
Further, there is no need to frequently clean or replace the heat exchange part of the heat pump.

FIG. 1 is a diagram showing a configuration of an exhaust heat recovery hybrid membrane processing system.

    Hereinafter, examples using the present invention will be described.

FIG. 1 is a diagram showing a configuration of an exhaust heat recovery hybrid membrane processing system.
The raw water tank 1, the adjustment tank 2, the membrane separation tank 3, and the treated water tank 4 are provided as tanks for treating the waste water, and the waste water is moved in this order.
The membrane separation layer 3 is provided with a waste water treatment device 5. As the waste water treatment device 5, a commercially available membrane filtration system can be used. For example, it is a submerged film shown in Non-Patent Document 1. Air is delivered from the air supply 6 to the air diffuser 7 of the membrane filtration system.
A heat pump 8 is connected to the treated water tank 4. As the heat pump 8, a commercially available one can be used. For example, it is a heat pump shown in Non-Patent Document 2. The heat pump 8 moves heat from drainage on the left side in the figure to tap water on the right side in the figure.

Miscellaneous wastewater such as bathroom wastewater flows into the raw water tank 1. The raw water tank 1 collects drainage from one or more drain pipes.
The miscellaneous wastewater in the raw water tank 1 flows into the adjustment tank 2 through the screen 9. The screen 9 removes large impurities in the waste water.
The adjustment tank 2 is adapted to equalize the amount of wastewater per unit time flowing into the subsequent membrane separation layer by temporarily storing the amount of wastewater that varies with time. In addition, the degree of contamination of the waste water that changes depending on the drainage source or time depends on the degree of contamination by mixing in the adjustment tank 3. The air supplied from the air supply tool 10 is ejected from the air ejection port 11 to aerate the waste water in the adjustment tank 3.
Waste water (primary waste water) in the adjustment layer 2 is pumped up by a pump (not shown) and flows into the upper part of the membrane separation tank 3. This pump is turned on when the water level of the membrane separation tank 3 falls below a predetermined water level and the waste water treatment device 5 provided in the membrane separation tank 3 can treat additional waste water, and the temporary waste water is discharged to the upper part of the membrane separation tank 3. To flow into.

In the membrane separation tank 3, the primary waste water is purified by the waste water treatment device 5. Air is sent from the air supply tool 6 to the diffuser pipe 7 of the wastewater treatment device 5 to supply oxygen for biological treatment, and the membrane surface is cleaned by vibrating the separation membrane of the wastewater treatment device 5. .
According to the applicant's experience, a BOD of 2 mg / l or less is obtained by performing a purification treatment using MBR as the waste water treatment device 5 on the waste water of the warm bath facility. Here, it is also possible to perform purification treatment by membrane filtration using a microfiltration membrane, an ultrafiltration membrane or a reverse osmosis membrane instead of MBR. However, a method that can make miscellaneous wastewater to be 2 mg / l or less of BOD is used. In addition, it is preferable to perform a purification process that eliminates the need to frequently clean or replace the heat exchanging part of the subsequent heat pump by removing fats and oils corresponding to the quality of the wastewater.
The sludge separated by the waste water treatment device 5 is discharged out of the system by a vacuum car or the like.
Waste water (secondary waste water) purified by the waste water treatment device 5 is sucked by the membrane suction pump 17 and flows into the upper part of the treated water tank 4. This pump always sucks a certain amount of water according to the treatment capacity of the waste water treatment apparatus.

In the treated water tank 4, the secondary drainage is cooled by the heat pump 8. The heat pump 8 lowers the temperature of the secondary drainage in the upper part of the treated water tank 4 and discharges it to the lower part of the treated water tank 4. The secondary waste water (final waste water) having a reduced temperature has a higher specific gravity than the secondary waste water before the temperature reduction, and remains in the lower part of the treated water tank 4 and is not mixed with the secondary waste water before the temperature reduction.
In addition, depending on the kind of miscellaneous drainage, the case where the water temperature of secondary drainage is low (for example, 25 degrees C or less) is also considered. In this case, the secondary wastewater and final wastewater can be mixed. However, there is no problem even if the secondary wastewater is reused or discharged into the rainwater system without performing a low-temperature treatment. Absent.

  The heat pump 8 transfers heat to the tap water to make hot water. This hot water is stored in the hot water storage tank 16 and used, for example, for hot water supply to a hot bath facility. By being stored in the hot water storage tank 16, it is possible to lower the temperature of the secondary drainage by flowing tap water even in a time zone when there is no demand for hot water, and hot water can be used when there is demand for hot water.

The final wastewater in the treated water tank 4 that has been lowered in temperature has a BOD of 2 mg / l or less and has a low water temperature.
The reuse pump 12 pumps up the final waste water from the lower part of the treated water tank 4 and uses it for reuse through the reuse pipe 13. The user can use the final drainage by turning on the reuse pump 12 when there is a demand for watering or middle water.
The rainwater discharge pump 14 is turned on when the water level of the treated water tank 4 exceeds a predetermined water level, and discharges the final wastewater to the rainwater system via the rainwater discharge pipe 15. Only when the amount of the final drainage without demand for sprinkling or middle water exceeds the capacity of the treated water tank 4 is the discharge into the rainwater system.

  It is a system and method that makes it possible to treat and reuse miscellaneous wastewater and discharge it into the rainwater system, and can be expected to be used by many people including operators of accommodation facilities and hot bath facilities.

DESCRIPTION OF SYMBOLS 1 Raw water tank 2 Adjustment tank 3 Membrane separation tank 4 Treated water tank 5 Waste water treatment apparatus 6 Air supply tool 7 Aeration pipe 8 Heat pump 9 Screen 10 Air supply tool 11 Air outlet 12 Reuse pump 13 Reuse pipe 14 Rainwater system discharge Pump 15 Rainwater discharge pipe 16 Hot water storage tank 17 Membrane suction pump

Claims (6)

Equipped with wastewater treatment equipment to purify miscellaneous wastewater (primary wastewater)
A heat pump for transferring heat from the waste water after treatment by the waste water treatment device (secondary waste water) to tap water,
The exhaust heat recovery hybrid membrane treatment system, characterized in that the temperature of waste water (final waste water) after treatment by the heat pump is lower than a predetermined temperature of 25 ° C. or less. The waste water treatment device is a membrane filtration device,
2. The exhaust heat recovery hybrid membrane treatment system according to claim 1, wherein the final waste water has a BOD of 2 mg / l or less. A pipe for using the final wastewater as water spray or medium water;
The exhaust heat recovery hybrid membrane processing system according to claim 1, further comprising a pipe for allowing the final waste water to flow into a rainwater system. Purification treatment for purifying miscellaneous wastewater (primary wastewater);
A heat exchange process for transferring heat from the waste water after the purification treatment (secondary waste water) to the tap water using a heat pump,
The exhaust heat recovery hybrid membrane treatment method, wherein the temperature of the waste water (final waste water) after the heat exchange treatment is lower than a predetermined temperature of 25 ° C. or less. The purification treatment uses a membrane filtration device,
The exhaust heat recovery hybrid membrane treatment method according to claim 4, wherein the final waste water has a BOD of 2 mg / l or less.   6. The exhaust heat recovery hybrid membrane treatment method according to claim 4, wherein the final waste water is used as water spray or intermediate water, and a portion that is not used as water spray or intermediate water is discharged to a rainwater system.

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