JP2554494B2 - Oil water separator - Google Patents

Description

TECHNICAL FIELD The present invention relates to an oil / water separator for oil-containing wastewater using a filter made of alumina porous ceramics.

[Prior Art] Oil-containing wastewater to be subjected to oil-water separation is, for example, a floating oil in which coagulated oil droplets are aggregated on a liquid surface, a dispersed oil in which relatively large oil droplets are mixed and dispersed in water, Or, it mainly contains emulsified oil emulsified by a surfactant or an active aid, and is discharged in all fields of industry. For example, wastewater in the technical fields of petroleum refining, steel rolling, textile processing, food production, and machining are also typical oil-containing wastewaters. As one of the treatment methods, these oil-containing wastewaters are treated by so-called membrane methods such as reverse osmosis method, ultrafiltration method, microfiltration method and the like.

[Problems to be Solved by the Invention] The membrane method has a number of advantages such as being particularly effective for emulsifying waste liquids, but it does not prevent the contamination of the membrane surface or removes the contamination generated on the membrane surface. In terms of points, there is room for development. Also, when the material of the membrane is a polymer compound, the solvent resistance to water and oil cannot be ignored, so it is not suitable for oil-water separation of an emulsion of water and oil. Hurt.

The present invention has been made in view of the above points, and an object thereof is to have a filter whose material does not change even when immersed in water and oil and whose filter surface is not damaged by sludge. An object of the present invention is to provide an oil / water separation device that can easily remove the contamination generated in the oil.

[Means for Solving the Problems] According to the present invention, the object is to liquid-tightly fix a container and both ends thereof to the inner surface of the container so as to partition the inside of the container into a first chamber and a second chamber. The innermost layer has a pore size of 0.1 μm to 1.8 μm, and the pore size of the pores increases from the inside to the outside. A cylindrical filter, and the first chamber is inside the filter, and an inlet provided in the container at one end of the filter to introduce the oil-containing wastewater into the first chamber, A first outlet provided in the container at the other end of the filter for discharging the oil-containing wastewater from the first chamber, and a filtrate of the oil-containing wastewater filtered by the filter in the second chamber. Provided on the container to be discharged from And an oil / water separator characterized by comprising a second discharge port, and particularly in the oil / water separator characterized in that the pore diameter of the pores of the innermost layer of the filter is 0.2 μm. It

[Operation] According to the device of the present invention, since the filter is the porous ceramics made of alumina, the filter has water resistance and oil resistance, and it is possible to prevent the filter surface from being damaged by sludge.

Further, since the device of the present invention is configured such that the oil-containing wastewater flows from the inlet provided in the container at one end of the filter to the first outlet provided in the container at the other end of the filter, A stream of oily wastewater can be formed along the filter surface defining the first chamber, so that the oily wastewater introduced into the first chamber is deposited on the filter surface defining the first chamber. Contamination can be flushed away towards the first outlet and the filter can be washed at the same time as the oily wastewater is filtered.

In the filter according to the present invention, the first chamber is provided inside the filter, and the pore diameter of the innermost pore is 0.1 μm to 1.8 μm, and the pore diameter of the pore increases from the inside to the outside. The structure is made of porous ceramics made of alumina.

The innermost layer preferably has a thickness of 10 to 40 μm. In particular, it is preferable that the filter has a tubular three-layer structure, and the pore diameter of the innermost layer of the filter is 0.2 μm.

As a result, oily water can be efficiently captured.
In this way, the outer portion of the filter having a multilayer structure in which the pore size increases from the inner side to the outer side supports the innermost layer and also serves to easily discharge the accumulated contamination, that is, the emulsion toward the discharge port. There is.

Oil-containing wastewater introduced into the apparatus of the present invention, 0.2 ~ 5kg / cm ²
It is preferable to pressurize the oil-containing wastewater so that the flow rate of the oil-containing wastewater along the filter surface can be appropriately maintained, and the filtration amount of the oil-containing wastewater can be appropriately maintained.

Further, at the inlet side of the apparatus of the present invention, one or more pretreatment oil / water separation filters having a larger pore diameter may be provided, whereby the pretreatment oil / water separation filter has a relatively large diameter. Emulsions, oils and sludge can be removed, and as a result, clogging and contamination of the filter of the device of the present invention can be reduced. In the device of the present invention, an emulsion having a relatively small diameter is preferably removed.

As the oil-water separation filter for pretreatment, a cylindrical multilayer filter made of ceramics is preferable, and the pore diameter of the innermost layer is 10
Those having a thickness of -100 μm are particularly preferable. Further, when filtering a large amount of solid content, a ceramic foam filter having a three-dimensional mesh structure with continuous pores having a pore diameter of 0.1 to 5 mm before the pretreatment oil-water separation filter, or an opening of 0.5 to 5 mm. If a net is provided, the filtration efficiency can be increased.

Further, the filter of the present invention may be backwashed with a washing liquid. At this time, it is preferable to use caustic soda as the cleaning liquid.

The filter of the device of the present invention may be a polygonal prism, preferably a hexagonal prism, provided with a plurality of through-holes along the longitudinal direction of the prism, preferably through-holes having a circular cross section.

Further, the material of the filter of the device of the present invention, the purity
It is preferable to use 99% or more of alumina.

[Specific Examples] Hereinafter, the present invention will be described in more detail using preferred specific examples shown in the drawings.

In the figure, a liquid container 1 is filled with emulsified oil-containing wastewater. This container 1 is connected to an inlet 4 provided at one end of a cylindrical filter container 3 whose both ends are closed by an appropriate pipe 2, and in the middle of the pipe 2, the inside of the container 1 A pump 5 for supplying the oil-containing wastewater to the inlet 4 is provided.

Between the pump 5 and the inlet 4, a primary oil-water separation filter 6 made of a spongy substance for removing emulsion, oil and sludge having a relatively large diameter contained in the oil-containing wastewater supplied by the pump 5. Is provided.

Inside the container 3, a tubular filter 7 made of alumina having a pore size of 0.2 μm is accommodated, and both ends of this filter 7 are liquid-tightly fixed to both end faces of the container 3, respectively.

The filter 7 is configured such that the inside of the container 3 is a chamber 8 outside the filter 7.
And a chamber 9 inside the filter 7 which is communicated with the inlet 4 at one end surface of the container 3. Container 3
A discharge port 10 is provided on the other end surface of the chamber, and the chamber 9 is provided with a discharge port.
It also communicates with 10. The outlet 10 is connected to the container 1 by a suitable pipe 11. A discharge port 12 communicating with the chamber 8 is provided at the bottom of the container 3.

 The operation of the device of the present invention will be described below.

The pump 5 removes the oil-containing wastewater in the container 1 from the filter 6.
The filter 66 removes the emulsion, oil and sludge having a relatively large diameter in the oil-containing wastewater. The oil-containing wastewater that has passed through the filter 6 is supplied to the chamber 9 through the inlet 4.
The emulsion having a relatively small diameter is then filtered by the filter 7.

This filtrate is discharged from the chamber 8 via the outlet 12.
On the other hand, a part of the oil-containing wastewater introduced into the chamber 9 through the inlet 4 becomes a concentrated liquid and is discharged from the container 3 through the outlet 10.
It is returned to the container 1 by the pipe 11.

In the chamber 9, the oil-containing wastewater flows along the inner peripheral surface of the filter 7 in the longitudinal direction of the filter 7. Therefore, the flow of the oil-containing wastewater causes contamination, that is, emulsion, accumulated on the inner peripheral surface of the filter 7 to be discharged to the discharge port 10. It can be flushed away and the filter 7 can be washed.

As the oil-containing wastewater, 5 g of rapeseed oil, 5 to 10 g of a surfactant, and 1 g of activated carbon (particle diameter of 1 mm or less) were mixed and stirred with 1 l (liter) of tap water. The result of filtration by the apparatus is shown in FIG. The liquid of this example has a total organic carbon (TOC) of 3000 ppm.
Can be regarded as emulsion water. The amount of water passing through the filter 7 is 100 l / m ² -h.

According to FIG. 2, by using the apparatus of this example, the TOC of the filtrate of the solution of this example can be 600 ppm or less.

Referring to FIG. 3, a three-stage filtration type filtration device using one embodiment of the present invention will be described. The liquid container 11 is filled with emulsified oil-containing wastewater. This vessel 11 is connected to one end of a cylindrical filter vessel 12 having both ends closed by an appropriate pipe 13, and supplies oil-containing wastewater in the vessel 11 to the vessel 12 in the middle of the pipe 13. A pump 14 for performing the operation is provided.

Inside the container 12, a cylindrical filter 15 made of ceramic foam having a three-dimensional network structure having a pore diameter of 0.5 mm is accommodated, and one end of the filter 15 is connected to the pipe 13. The other end of the filter 15 is connected to the container 11 by an appropriate pipe 16.
It is connected to the. First filtered by filter 15
The filtrate is guided to the liquid container 18 via the outlet 17.

The liquid container 18 is a cylindrical filter container having both ends closed.
It is connected to one end of 19 by an appropriate pipe 20, and in the middle of the pipe 20, the first filtrate in the container 18 is placed in the container 19.
A homp 21 is provided for supplying to.

Inside the container 19, a tubular filter 22 made of alumina having a pore diameter of 10 to 100 μm is accommodated. The structure and function of the container 19 and the filter 22 are similar to those of the device shown in FIG. A part of the first filtered liquid introduced into the filter 22 becomes a concentrated liquid and is returned to the container 18 by an appropriate pipe 23. The second filtered liquid filtered by the filter 22 is guided to the liquid container 25 via the outlet 24.

The liquid container 25 is a cylindrical filter container having both ends closed.
A suitable pipe 27 is connected to one end of the container 26, and the second filtrate in the container 25 is connected to the container 26 in the middle of the pipe 27.
A pump 28 is provided for supplying to the pump. Inside the container 26, a tubular filter 29 made of alumina and having a pore size of 0.1 to 1.8 μm is housed.

The structure and function of the container 26 and the filter 29 are the first.
It is similar to the device shown. Second introduced in filter 29
A part of the filtered liquid becomes a concentrated liquid and is returned to the container 25 through an appropriate pipe 30. The third filtrate filtered by the filter 29 is discharged from the container 26 via the discharge port 31.

The effect of the device shown in FIG. 3 will be described with reference to FIGS. 4 and 5. In the graph of FIG. 4, the horizontal axis represents the particle size of the filtered solid content, and the vertical axis represents the cumulative percentage of solid content. Solid line 41 is data in filter 29, dashed line 42
Is the data in the filter 22, and the dashed line 43 is the filter 15
In the data.

It can be seen from FIG. 4 that the filter 15 can remove solids having a particle size of 0.5 mm or more, and the filter 22 can remove solids having a particle size of 10 μm or more. According to another measurement, no solid content is detected in the third filtrate discharged from the discharge port 31.

In the graph of FIG. 5, the horizontal axis represents the filtration overtime,
The vertical axis represents the filtration amount. The solid line 44 is the filtration amount data of the device of FIG. 1, and the broken line 45 is the filter of the device of FIG.
It is data of the filtration amount of 29.

According to FIG. 5, the third-stage filtration type filter device like the device of FIG. 3 can remove large solids from the oil-containing wastewater in advance by the first-stage filter and the second-stage filter. The filtration amount of the filter is larger than that of a filtration device which does not perform pretreatment, such as the device of FIG.

[Effects of the Invention] According to the device of the present invention, since the filter is a porous ceramic made of alumina, the filter has water resistance and oil resistance, and it is possible to prevent the filter surface from being damaged by sludge. It is also possible to filter at high temperature within a range not exceeding the oil ignition point.

Further, since the device of the present invention is configured such that the oil-containing wastewater flows from the inlet provided in the container at one end of the filter to the first outlet provided in the container at the other end of the filter, A stream of oily wastewater can be formed along the filter surface defining the first chamber, so that the oily wastewater introduced into the first chamber is deposited on the filter surface defining the first chamber. Contamination can be flushed away towards the first outlet and the filter can be washed at the same time as the oily wastewater is filtered.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially cutaway perspective view showing one embodiment of the apparatus of the present invention, FIG. 2 is a graph showing the effect of one embodiment of the apparatus of the present invention, and FIG. FIG. 4 is an explanatory diagram of an application example of one specific example of the device, FIG. 4 is an explanatory diagram of the effect of the device shown in FIG. 3,
FIG. 5 is an explanatory graph of the filtration amount of one embodiment of the device of the present invention and the device shown in FIG. 3 ... filter container, 4 ... inlet, 7 ... filter,
10,12 …… Outlet.

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Mitsumasa Hasegawa 1 Minamito, Ogakie-cho, Kariya City, Toshiba Ceramics Co., Ltd. Kariya Plant (56) References JP 61-4516 (JP, A) 132707 (JP, U)

Claims (2)

(57) [Claims] 1. A container, and a first chamber and a second
Both ends are liquid-tightly fixed to the inner surface of the container so as to be partitioned into chambers of 0.1 μm to 1.8 μm.
m and a cylindrical filter made of porous ceramics made of alumina for filtering oil-containing wastewater of a multi-layer structure in which the pore size increases from the inside to the outside, and the first chamber is An inlet provided inside the container on one end side of the filter for introducing the oil-containing wastewater into the first chamber, and another filter for discharging the oil-containing wastewater from the first chamber. A first outlet provided in the container on the end side, and a second outlet provided in the container for discharging the filtrate of the oil-containing wastewater filtered by the filter from the second chamber. An oil / water separation device comprising: 2. The pore size of the innermost layer of the filter is 0.2.
Device according to claim 1, characterized in that it is μm.