JP3113900B2 - Sewage purification equipment - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a sewage purification apparatus, and more particularly to purification of sewage from lakes and marshes or large rivers having a large basin area and a relatively low flow velocity to improve water quality. The present invention relates to an apparatus for purifying sewage that can be made to act.

[Prior Art] Various methods have been proposed for river purification. One such method is sewage treatment by aeration. This is to send air into the sewage to be treated and force the sewage into contact with the air.

Conventional aeration methods for sewage treatment include full aeration and
There is a partial aeration method. In the full aeration method, oxygen is supplied to the entire filter medium by aerating the entire bottom of the filter medium. on the other hand,
In the partial aeration method, only a part of the aeration tank is aerated to generate a swirling flow, thereby supplying oxygen to the entire tank.

However, for sewage that exists on the surface of lakes or large rivers where the basin area is large and the flow velocity is relatively slow,
Treatment by conventional methods, such as aeration, was very inefficient. In other words, if it is desired to aerating lakes, marshes, rivers, etc., a very large-scale and complicated structure will be required, and the cost will be enormous. . On the other hand, in the case of partial aeration, lakes, marshes, large rivers, and the like have a large amount of water, so that the amount of water to be treated is very large.

Here, for example, in order to purify sewage such as domestic wastewater, when a large number of cylindrical bodies whose bottoms are removed from a container of Yakult trade name are put into a filtration tank as a filter medium, suspended solids (SS)
Is known to be significantly reduced.

There is also known an aeration method for improving the efficiency of BOD treatment by injecting air into the sewage or stirring the sewage for sewage treatment.

Japanese Patent Application Laid-Open No. 62-152594 discloses an apparatus for purifying sewage by aeration. However, such a known technique installs a compressor for aeration on land or on a ship, so that the distance from the land is limited or a separate ship has to be provided, which is not suitable for use at a distance from the land.

Further, various types of sewage treatment apparatuses generally used on the ground are known, but they cannot be used floating on water.

[Problems to be Solved by the Invention] Accordingly, an object of the present invention is to provide a sewage purification apparatus that can be used for an extended period of time at an arbitrary position away from land and can effectively purify sewage. .

[Means for Solving the Problems] According to the present invention, in a sewage purification device for purifying sewage from a lake or a large river with a large basin area and a low flow velocity, a plurality of sewage devices surrounding the first housing (32) are provided. A processing device (10) is provided, and the processing device (10) includes a second housing (11) that is installed so as to float on the surface of the water, and the second housing (11) has a buoy (12a) on a peripheral edge portion. Have
A filter medium (14) is housed inside the second housing (11), and an air diffuser (18) is inserted into a draft tube (16) extending through the filter medium (14). 1
The housing (32) has an air source (34) for supplying air to the air diffuser (18), a compressor (36) for supplying air under pressure, an electric motor (38) for driving the compressor, and a power source (40) for the motor. ), And a waste water inlet (44) is provided at the bottom of the second housing (11).
An outlet (46) through which the purified water flows out is provided on a side portion of the housing (11).

In carrying out the present invention, it is preferable to use a solar cell panel.

Further, it is preferable to attach an anchor to a specific float via a rope so that the sewage purification device does not move from a predetermined position.

Further, it is preferable that the filter medium is configured so that large organisms such as small fish and shellfish inhabit in addition to microorganisms attached to the cylindrical body.

[Explanation of operation and effect] Therefore, when pressurized air is sent from the compressor to the air diffuser via the air source, air bubbles come out of the air diffuser inserted into the draft tube, and sewage is sucked in from the inflow port and passes through the filter medium. And is discharged from the outlet.

Since the float gives buoyancy to the entire purification device, the entire device floats on the water surface. Therefore, the sewage treatment apparatus of the present invention can be installed at an arbitrary position (contaminated site) on the water surface such as a lake or a large river.

As described above, according to the present invention, sewage existing in an environment having a wide water surface such as a lake or a large river can be effectively purified without requiring a large-scale structure.

On the other hand, as compared with the conventional partial aeration method, more filter media can be accommodated inside the device, and the amount of biomass retained increases. For this reason, the size can be made much smaller than the conventional purification device having the same processing capacity.

Here, the aeration is limited to only the oxygen supplied from the air diffuser, and no disturbance occurs. Therefore,
The SS trapping property, which is a characteristic of a cylindrical filter medium, is increased, and the formation of a biofilm is facilitated. And sludge retention time (SR
T) is prolonged and organic matter is totally oxidized.

Further, by setting the interval between the air hose connection points and the speed at which the air flows through the pipe-shaped member at a low level, the dissolved oxygen concentration can be kept low on average, the oxygen utilization efficiency increases, and the BOD treatment efficiency increases.

Since oxygen is supplied to the water around the purification device, the self-cleaning action of the environment is promoted.

Further, the sewage treatment apparatus of the present invention can change its purification treatment capacity by connecting and arranging a plurality of sewage treatment apparatuses. In this case, if a housing for accommodating an air source, a power source, and others is surrounded by a plurality of purification devices, and an electric motor and a solar cell panel are provided as the power source, it can be operated for a long time at low cost. I can do it.

In addition to this, if large organisms other than microorganisms (small fish, fish, etc.) inhabit inside the filter medium, the purification ability can be further improved.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

In FIGS. 1 to 3, the wastewater treatment apparatus of the present invention, generally indicated by reference numeral 10, is installed so as to float on a water surface WL of a lake or a large river. And the processing device 10 is a second housing.
The second housing 11 is provided with a buoy 12a at a peripheral portion thereof.

Inside the second housing 11, for example, a cylindrical body (not shown: hereinafter referred to as "filter medium") from which a bottom of a container of Yakult (trade name) has been removed is densely gathered and arranged at random. . The storage location of the filter medium is indicated by reference numeral 14 in FIG.

A draft tube 16 extends through the filter medium 14, and an air diffuser 18 is inserted into the draft tube 16. The air diffuser 18 is connected to a compressor 36 described later.

As shown in FIGS. 1 and 2, a plurality of processing devices 10 are arranged so as to surround a first housing provided at the center. In this way, a unit indicated by reference numeral 30 is formed.

The first housing 32 houses an air source 34 that supplies air to the air diffuser 18, a compressor 36 that sends air under pressure, an electric motor 38 for driving the compressor, and a battery 40 that is a power source of the motor.

Such units 30 can be arranged and used continuously as shown in FIG. 2 and FIG. This FIG. 2,
In FIG. 3, a solar cell panel is used instead of the battery 40 of FIG.
42 are used. And a rope as shown in FIG.
An anchor 48 is attached via the base 20, and when the position is changed, the anchor 48 can be launched and moved to another position by the motor boat 50 or the like.

As shown in FIG. 1, the wastewater is supplied to an inlet 44 provided at the bottom of the second housing 11 of the individual treatment apparatus 10.
Through the filter medium 14 and subjected to the same purifying action as described above, and flows out in a clean state from an outlet 46 provided on the side of the second housing.

In operation, when driven by the compressor 36 and the electric motor 38, the air from the compressor 36 is supplied to the air source 34 and the diffuser 18
When air is sent to the draft tube 16 through the, air bubbles are generated in the draft tube 16, and a water pumping action is generated in the draft tube by the action of the air lift pump. Since the unit 30 is floating on the water surface, sewage near the water surface is sucked in from the inflow port 44, and the filter medium 14
Flows in

Then, it passes through the place where the filter medium 14 is stored,
At that time, the wastewater contacts the aerobic or anaerobic biofilm formed on the surface of the filter medium 14. As a result, ammonia changes into nitrite nitrogen or nitrate nitrogen relatively quickly, and nitrification water (water containing a large amount of nitrite and nitrate is referred to as nitrification water). The action takes place.

The water thus purified is discharged from the outlet 46.

Here, since relatively large organisms such as small fish and shellfish can be grown in the filter medium 14, the wastewater can be purified not only by the bacteria in the biofilm but also by the large organisms.

In addition, one processing apparatus 10 is 2 m in length, 4 m in width, and 3 m in depth. If the blowing rate is 16.7 m / h, the pumping rate of the processing apparatus 10 is 144 m / h. Then, about 79 g of oxygen is supplied each time the sewage passes through the apparatus 10 once. Now, average water depth 5m,
Assuming that there are pond radius 20 m, the total volume 6280M ³
And assuming that the biological oxygen demand of this pond was 10 mg / l, the oxygen demand of the whole pond would be 62800 g. Therefore, 90% of the water is purified in 53 days.

[Effects of the Invention] As described above, the present invention has the following excellent effects.

(A) Since the power supply and the like are provided in the first housing, it can be installed at an arbitrary position away from land.

(B) By appropriately setting the number of units for the volume of water to be purified, an optimum purification operation can be performed.

(C) The purification efficiency can be improved by adjusting the pipes at the inlet and outlet to an appropriate length in accordance with the propulsion of the installation location.

(D) It is possible to keep large organisms (for example, fish and shellfish). This allows the plant chain to progress to the final stage, with little sludge multiplication and denitrification possible.

[Brief description of the drawings]

FIG. 1 is a partially enlarged side view showing a main part of an embodiment of the present invention,
FIG. 2 is a plan view and FIG. 3 is a side view. 10 ... Sewage treatment equipment, 11 ... Second housing, 12 ...
Float, 12a …… Buoy, 14 …… Filter media storage area, 16 ……
Draft tube, 18 ... diffuser tube, 30 ... unit, 32
... 1st housing, 34 ... air source, 36 ... compressor, 38 ... electric motor, 40 ... battery, 42 ... solar cell, 44 ... inlet, 46 ... outlet

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) C02F 3/06

Claims (1)

(57) [Claims] A sewage purification apparatus for purifying sewage from a lake or a large river with a large basin area and a low flow velocity, comprising a plurality of treatment devices (10) surrounding a first housing (32). The processing device (10) includes a second housing (11) which is installed so as to float on the water surface, and the second housing (11) has a buoy (12a) on a peripheral portion thereof, and the second housing (11) A filter medium (14) is accommodated in the inside of the tube, an air diffuser (18) is inserted into a draft tube (16) extending through the filter medium (14), and a first housing (32) is inserted into the first housing (32). An air source (34) for supplying air to the air diffuser (18), a compressor (36) for pressure-feeding the air, an electric motor (38) for driving the compressor, and a power source (40) for the motor; At the bottom of the second housing (11), an inflow port (44) for sewage is provided. Vignetting, the second
An apparatus for purifying sewage, wherein an outlet (46) through which purified water flows out is provided at a side portion of the housing (11).