WO2017122678A1 - Air diffusion device and air diffusion hole cover - Google Patents
Air diffusion device and air diffusion hole cover Download PDFInfo
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- WO2017122678A1 WO2017122678A1 PCT/JP2017/000631 JP2017000631W WO2017122678A1 WO 2017122678 A1 WO2017122678 A1 WO 2017122678A1 JP 2017000631 W JP2017000631 W JP 2017000631W WO 2017122678 A1 WO2017122678 A1 WO 2017122678A1
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- air diffuser
- air diffusion
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F3/00—Biological treatment of water, waste water, or sewage
- C02F3/02—Aerobic processes
- C02F3/12—Activated sludge processes
- C02F3/20—Activated sludge processes using diffusers
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Definitions
- the present invention relates to an air diffuser and an air diffuser cover, and more particularly to an air diffuser and an air diffuser cover that can prevent clogging due to sludge and the like and do not require cleaning of the air diffuser.
- an aeration tube having a plurality of aeration nozzles attached to supply air is provided in the aeration tank of the activated sludge treatment apparatus.
- the air diffuser is immersed in the bottom of the aeration tank, and bubbles are ejected from the air diffuser nozzle to supply oxygen to the activated sludge.
- the air supplied from the bottom part of the aeration tank stirs the activated sludge and plays a role of increasing the contact efficiency between the raw water to be treated and the activated sludge.
- a solid-liquid separation device that immerses the submerged membrane separation device in a solid-liquid separation tank to separate the activated sludge from the treated water. Since this submerged membrane separator is a solid-liquid separation by membrane filtration, clean treated water can be obtained stably, but there is a problem that the membrane is clogged. In order to suppress the occurrence of clogging of such a membrane separator, a method of aeration from below the membrane separator is employed.
- Patent Document 1 discloses an air diffuser in which an air diffuser is arranged below a membrane separator, bubbles are extracted from the diffuser, and the membrane is cleaned by rising bubbles.
- a diffuser tube used in the diffuser is provided with a plurality of diffuser holes.
- the air diffuser becomes a gas-liquid interface, and sludge enters and exits the air diffuser.
- the sludge that has entered the diffuser pipe is dried by the diffused air and fixed to the inner surface of the pipe.
- the adhered sludge needs to be cleaned periodically by the pulsation due to the air lift effect by opening the valve at the end of the diffuser pipe raised up above the liquid level of the water tank in which the membrane separator is installed.
- Patent Document 2 discloses an air diffuser in which a bottom portion is opened and an air diffuser such as a slit is provided on a side surface.
- connection ports are provided in one air feeding header, and an aeration apparatus is provided in each of the connection ports. For this reason, there is a problem that the aeration apparatus is required by the number of connection ports, which increases the cost.
- the amount of air discharged from each connection port may not be uniform. For example, there is a problem that the air discharge amount increases at the central portion of the air supply header or the air discharge amount pulsates as a whole.
- an object of the present invention is to provide an air diffuser and an air diffuser cover that do not block piping due to sludge and the like, do not need to clean an air diffuser, enable stable air diffuser, and reduce costs.
- (Claim 1) (A) an air diffuser having a plurality of air diffusers at the lower end; (B) A front plate and a back plate that are arranged side by side so as to be in close contact with both side surfaces of the air diffuser and extend downward from the lower end of the air diffuser, and upstream of the front plate and the back plate An upstream partition plate and a downstream partition plate that seal openings formed on the side and the downstream side, and below the diffuser tube, the front plate and the back plate, and the upstream partition plate and the downstream It consists of an air diffuser cover whose bottom is released by a side partition plate, A plurality of vertical slits are provided in parallel in the direction along the air diffuser at the lower part of each of the front plate and the back plate constituting the air diffuser cover of (B), A space is provided between the lower end of the diffuser tube and the gas-liquid interface so as to have a gas-liquid interface at a position that is at least 5 mm away from the lower end of the diffuser tube and in the range
- An air diffuser characterized by being formed.
- (Claim 2) The air diffuser according to claim 1, wherein an interval between the front plate and the back plate is configured to become narrower downward.
- (Claim 3) The front plate and the back plate are opposed to each other, and the upstream partition plate and the downstream partition plate are opposed to each other.
- the cylindrical body has an open top and bottom, At the upper part of each of the upstream partition plate and the downstream partition plate, a notch corresponding to the outer shape of the diffuser pipe is provided, A diffuser cover, wherein a plurality of vertical slits are formed in the lower part of each of the front plate and the back plate.
- (Claim 4) The air diffuser cover according to claim 3, wherein an interval between the front plate and the back plate facing each other is configured to become narrower downward.
- an air diffuser and an air diffuser cover that do not block the piping due to sludge and the like, enable stable air diffusion, do not need to clean the air diffuser, and reduce costs.
- FIG. 1 The figure which shows embodiment using an example of the aeration apparatus of this invention
- FIG. 1 The figure which looked at the diffuser in FIG. 1 from the lower part
- the figure which shows the aspect by which the membrane separator was comprised by five membrane modules
- the figure which shows the aspect by which the membrane separator installation part and the diffuser installation part are provided
- FIG. 1 is a diagram showing an embodiment using an example of an air diffuser according to the present invention.
- Reference numeral 1 denotes a water tank
- 2 denotes a membrane separator immersed in the water tank
- 3 denotes an air diffuser installed below the membrane separator 2.
- 4 is a blower for aeration.
- the water tank 1 is not particularly limited as long as it is a water tank that needs to be diffused.
- an aeration tank employed for activated sludge treatment may be used.
- the diffuser 3 if the diffuser 3 is installed in the aeration tank, the stirring air can be supplied into the aeration tank, and oxygen can be supplied to the activated sludge.
- a membrane separation device is installed in the aeration tank, it is excellent in that a solid-liquid separation tank such as a precipitation tank can be omitted.
- an aeration tank can be provided in multistage and a membrane separation apparatus can be provided in the last stage aeration tank.
- the air diffuser 3 is installed below the membrane separator to raise the bubbles, it can contribute to membrane cleaning of the membrane separator.
- Examples of the membrane used in the membrane separation device 2 include a microfiltration membrane and an ultrafiltration membrane, and the membrane form may be either a flat membrane type or a tubular type.
- the air diffuser 3 includes an air diffuser tube 30 having a plurality of air diffuser holes at the lower end, and an air diffuser cover 31 below the air diffuser tube 30.
- the air diffuser cover 31 is formed to extend downward from the lower end of the air diffuser 30.
- the air diffuser 30 has, for example, a plurality of air diffusers 300 as shown in FIG. 2 is a view of the air diffuser in FIG. 1 as viewed from below.
- one diffuser hole cover 31 is provided for two diffuser holes 300, 300.
- the air diffuser cover 31 includes a front plate 310 and a back plate 311 that are arranged side by side so as to closely face both side surfaces of the air diffuser as shown in FIG.
- 312 and 313 are an upstream partition plate and a downstream partition plate that seal openings formed on the upstream side and the downstream side of the front plate 310 and the back plate 311.
- the upstream partition plate 312 and the downstream partition plate 313 are opposed to each other.
- the air diffuser cover 31 is formed in a rectangular cylindrical body.
- the upper and bottom portions of the cylindrical air diffuser cover 31 are open, 314 is an opening in the bottom portion, and 315 is an opening in the upper portion.
- the front plate 310 and the back plate 311 are juxtaposed so as to closely face both side surfaces of the air diffuser 30.
- close contact means that the air in the space 316 formed by the lower portion of the diffuser tube 30 and the diffuser hole cover 31 is in contact with the lower slit 317 so as to ensure airtightness from leaking outside. is there.
- the means for intimate contact include welding (welding) or adhesion.
- welding welding
- adhesion adhesion
- the upstream side partition plate 312 and the downstream side partition plate 313 are preferably formed integrally with the front plate 310 and the back plate 311 so as to ensure airtightness in the space 316.
- the front plate 310 and the back plate 311 are formed so as to be inclined inward and to have a narrow width as shown in FIGS. This is to prevent air from leaking from the bottom of the air diffuser cover 31.
- a cutout corresponding to the outer shape of the air diffuser tube 30 is formed in the upper part of the upstream divider plate 312 and the downstream divider plate 313, and the cutout is in contact with the air diffuser tube 30 to ensure the airtightness in the space 316. It has become so.
- the shape of the notch is not particularly limited as long as it corresponds to the outer shape of the air diffusing tube 30.
- the diffuser tube 30, the front plate 310, the back plate 311, the upstream partition plate 312, and the downstream partition plate 313 are preferably formed using a resin plate such as polyethylene, polypropylene, vinyl chloride, or acrylic resin.
- a plurality of slits 317 arranged in parallel below the front plate 310 and the back plate 311 are formed in the vertical direction in the direction along the air diffuser 30.
- the width of the slit 317 is preferably in the range of 4 to 12 mm, and the length is preferably in the range of 15 to 30 mm.
- the lower end of the air diffuser 30 (the part of the air diffuser 300) is A
- the upper end of the slit 317 is B1
- the lower end of the slit 317 (the lower end of the front plate 310 and the back plate 311) is B2.
- the slit 317 is formed at a position at least 5 mm away from the lower end A of the air diffuser 30.
- the gas-liquid interface W is formed in the range from B1 to B2, which is the area range of the slit 317 in the vertical direction.
- the aforementioned space 316 is formed between the lower end of the air diffuser 30 and the gas-liquid interface W.
- the air diffuser 300 may be provided slightly shifted from the lower end of the air diffuser 30 to the left or right in the circumferential direction. In this case, A is the lowest part of the air diffusion hole 300.
- the pressure of the air supplied into the space 316 is adjusted so that the gas-liquid interface W can be maintained at a predetermined position.
- the gas-liquid interface W is formed in a range from B1 to B2, which is a region range of the vertical slit 317.
- the formation of the gas-liquid interface W as described above has an effect of avoiding the situation where air is discharged from the lower part of the space 316 and the situation where bubbles cannot be formed.
- the gas-liquid interface W is formed as described above. As a result, sludge and the like are formed in the space 316. Even if splashes, since it is away from the air holes, it is possible to prevent sludge from adhering to the air holes.
- the bottom of the air diffuser cover 31 is released. Since the gas-liquid interface W is in the range of the slit by releasing the bottom, even if sludge adheres to the slit due to the liquid in the water tank, drying of the sludge can be prevented. As a result, accumulation of sludge and the like can be prevented, and the clogging of the slit can be prevented.
- the air diffuser cover 31 is in a form that hangs downward from the side surface of the air diffuser tube 30, and is not a form that is provided at the tip of a single air diffuser nozzle as in the prior art.
- the air diffuser cover 31 is formed with a space 316 that receives air ejected from one or more air diffusers.
- air is supplied to the space 316 from the two air holes 300, 300.
- one air hole cover 31 is provided for each of a certain number of air holes, Due to the orifice effect of the air diffuser hole itself, the air pressure of the air diffuser 30 is reduced by the pressure loss, and the pressure in the space 316 can be kept uniform.
- an air diffuser is installed near the bottom of the water tank, a membrane separator is provided on the air diffuser, and both the air diffuser and the membrane separator are immersed in water.
- the water tank 1 is provided with a membrane separation device installation site 2A and an air diffusion device installation site 3A, and the membrane separation device 2 and the air diffusion device shown in FIGS. 3 is installed.
- FIG. 5 is a view of an example of the diffuser of the present invention immersed in a water tank as viewed from below the water tank.
- the air diffusing device 3 shown in the figure has a configuration in which two air diffusing tubes 30 and 30 are connected from a header tube 30A.
- one air diffuser cover 31 is provided for the two air diffusers 300, 300, which are divided into five blocks as a whole.
- a membrane module 20 constituting the membrane separation device 2 is disposed above.
- FIG. 7 shows an embodiment of the membrane separation device 2 configured with five membrane modules.
- 20 is a membrane module of the membrane separation device 2
- 21 is a suction header tube. *
- the permeated water sucked from the membrane module 20 is sent to the suction holes 210, 210,... Via a hose (indicated by reference numeral 22 in FIG. 8), and collected in the suction header pipe 21 to obtain permeated water.
- the membrane separation device is constituted by five membrane modules, but the number is not limited, and the number can be increased or decreased according to the target permeated water amount. Further, if the membrane area of one membrane separation device is increased, the number of installed membrane separation devices can be reduced.
- bubbles are generated from the air diffusing device 3 to clean the upper film and the air diffusing device itself does not need to be cleaned, so that the cleaning equipment and the cleaning work can be omitted.
- Example 1 As shown in FIG. 1, an air diffuser 30 having a plurality of air diffuser holes at the lower end and a diffuser cover 31 welded to the lower part of the air diffuser pipe 30 is manufactured, and an air diffuser test is performed. .
- the air diffuser 30 has a plurality of air diffusers at the lower end.
- the air diffuser cover 31 is arranged in parallel so as to be in close contact with both side surfaces of the air diffuser, and extends downward from the lower end of the air diffuser.
- the upstream partition plate 312 and the downstream partition plate 313 seal the openings formed on the upstream side and the downstream side of the front plate 310 and the back plate 311.
- Air diffuser 30 and the air diffuser cover 31 were designed to satisfy the following specifications.
- Air diffuser Aeration amount: approx. 1,600 L / min
- Air diffuser Hole diameter 20 mm, 10 holes / piece (see FIG. 5)
- Material Vinyl chloride Number of air diffuser covers: 5 blocks / piece; 1 air diffuser cover for 2 diffuser holes (see Fig. 6) Number of slits: 12 locations per diffuser cover; 6 locations on the front plate, 6 locations on the back plate (see FIG. 3)
- Slit upper end semicircular shape; width 6mm, length 20mm
- Gas-liquid interface a position 5 mm or more away from the lower end of the diffuser (see Fig. 4)
- Tests were conducted in principle for 24 hours (excluding equipment inspection and chemical cleaning of membranes) for aeration of solid-liquid separation membranes in activated sludge treatment at the sludge recycling treatment center in the Kyushu area. The test period was about 14 months.
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Abstract
The present invention addresses the problem of providing, at a low cost, an air diffusion device and an air diffusion hole cover, which prevent blockage of a pipe due to sludge, etc., which render washing of an air diffusion pipe unnecessary, and which enable stable air diffusion. The problem is solved by comprising: an air diffusion pipe 30 having a plurality of air diffusion holes at the lower end; a front surface plate 310 and a back surface plate 311 which are opposingly aligned so as to tightly touch both side surfaces of the air diffusion pipe 30 and which extend below the lower end of the air diffusion pipe 30; and an upstream side partition plate 312 and a downstream side partition plate 313 for sealing openings formed on the upstream side and the downstream side of the front surface plate 310 and the back surface plate 311, and further comprising, below the air diffusion pipe 30, an air diffusion hole cover 31 having an open bottom and formed of the front surface plate 310, the back surface plate 311, the upstream side partition plate 312, and the downstream side partition plate 313, wherein a plurality of vertical slits 317 are arranged along the air diffusion pipe 30 at respective lower parts of the front surface plate 310 and the back surface plate 311 constituting the air diffusion hole cover 31, and a space is formed between the lower end of the air diffusion pipe 30 and an air-liquid interface so that the air-liquid interface is located at least 5 mm away from the lower end of the air diffusion pipe 30 but within the area of the plurality of vertical slits 317.
Description
本発明は散気装置及び散気孔カバーに関し、詳しくは、汚泥等による閉塞を防止でき、散気管の洗浄が不要な散気装置及び散気孔カバーに関する。
The present invention relates to an air diffuser and an air diffuser cover, and more particularly to an air diffuser and an air diffuser cover that can prevent clogging due to sludge and the like and do not require cleaning of the air diffuser.
従来、活性汚泥処理装置の曝気槽内には、空気を供給するために散気ノズルが複数取り付けられた散気管が設けられている。散気管は、曝気槽の底部に浸漬され、散気ノズルから気泡を噴出して活性汚泥に酸素を供給している。また曝気槽の底部から供給された空気は、活性汚泥を撹拌し、処理対象原水と活性汚泥の接触効率を上昇させる役割を果たす。
Conventionally, in the aeration tank of the activated sludge treatment apparatus, an aeration tube having a plurality of aeration nozzles attached to supply air is provided. The air diffuser is immersed in the bottom of the aeration tank, and bubbles are ejected from the air diffuser nozzle to supply oxygen to the activated sludge. Moreover, the air supplied from the bottom part of the aeration tank stirs the activated sludge and plays a role of increasing the contact efficiency between the raw water to be treated and the activated sludge.
また浸漬型膜分離装置を固液分離槽に浸漬して、活性汚泥と処理水を分離する固液分離装置が知られている。この浸漬型膜分離装置は、膜ろ過による固液分離なので、清浄な処理水が安定して得られる反面、膜の目詰まりが発生する問題がある。かかる膜分離装置の目詰まりの発生を抑制するために、膜分離装置の下方から散気する手法が採用されている。
Also known is a solid-liquid separation device that immerses the submerged membrane separation device in a solid-liquid separation tank to separate the activated sludge from the treated water. Since this submerged membrane separator is a solid-liquid separation by membrane filtration, clean treated water can be obtained stably, but there is a problem that the membrane is clogged. In order to suppress the occurrence of clogging of such a membrane separator, a method of aeration from below the membrane separator is employed.
従来、特許文献1には、膜分離装置の下方に、散気管を配置し、散気管から気泡を出して、上昇する気泡によって膜洗浄する散気装置が開示されている。この散気装置に用いられる散気管には、複数の散気孔が設けられている。
Conventionally, Patent Document 1 discloses an air diffuser in which an air diffuser is arranged below a membrane separator, bubbles are extracted from the diffuser, and the membrane is cleaned by rising bubbles. A diffuser tube used in the diffuser is provided with a plurality of diffuser holes.
しかし、この散気管の場合には、散気孔が気液界面となり、汚泥等が散気管内に出入りする。散気管内に入った汚泥は、散気空気により乾燥して配管内面に固着する。固着した汚泥は、膜分離装置を設置した水槽の液面より上まで立ち上げた散気管末端の弁を開放し、エアリフト効果による脈動で定期的に洗浄を行う必要がある。
However, in the case of this air diffuser, the air diffuser becomes a gas-liquid interface, and sludge enters and exits the air diffuser. The sludge that has entered the diffuser pipe is dried by the diffused air and fixed to the inner surface of the pipe. The adhered sludge needs to be cleaned periodically by the pulsation due to the air lift effect by opening the valve at the end of the diffuser pipe raised up above the liquid level of the water tank in which the membrane separator is installed.
また特許文献2には、底部を解放し側面にスリット等の散気口を設けた散気装置が開示されている。
Further, Patent Document 2 discloses an air diffuser in which a bottom portion is opened and an air diffuser such as a slit is provided on a side surface.
しかしながら、特許文献2の図1によれば、1本の送気ヘッダに複数の接続口が設けられ、その接続口の各々に曝気装置が設けられている。このため接続口の数だけ、曝気装置が必要になり、コスト高になるという問題がある。
However, according to FIG. 1 of Patent Document 2, a plurality of connection ports are provided in one air feeding header, and an aeration apparatus is provided in each of the connection ports. For this reason, there is a problem that the aeration apparatus is required by the number of connection ports, which increases the cost.
1本の送気ヘッダの長さ方向において、接続口の各々から排出される空気の量は均一でないことがある。例えば、送気ヘッダの中央部で空気吐出量が多くなったり、全体的に空気吐出量が脈動したりする問題がある。
¡In the length direction of one air supply header, the amount of air discharged from each connection port may not be uniform. For example, there is a problem that the air discharge amount increases at the central portion of the air supply header or the air discharge amount pulsates as a whole.
そこで、本発明の課題は、汚泥等により配管が閉塞せず、散気管の洗浄が不要で、安定した散気を可能にし、コスト抑えた散気装置及び散気孔カバーを提供することにある。
Therefore, an object of the present invention is to provide an air diffuser and an air diffuser cover that do not block piping due to sludge and the like, do not need to clean an air diffuser, enable stable air diffuser, and reduce costs.
本発明の他の課題は、以下の記載によって明らかとなる。
Other problems of the present invention will become apparent from the following description.
上記課題は、以下の各発明によって解決される。
The above problems are solved by the following inventions.
(請求項1)
(A)下端に複数の散気孔を有する散気管と、
(B)該散気管の両側面に密接して対向するように並設され、且つ前記散気管の下端より下方に延出してなる正面板と裏面板と、該正面板と該裏面板の上流側と下流側に形成される開口を封止する上流側仕切板と下流側仕切板とからなり、前記散気管の下方に、前記正面板と前記裏面板、及び前記上流側仕切板と前記下流側仕切板によって、底部が解放された散気孔カバーとからなり、
前記(B)の散気孔カバーを構成する前記正面板と前記裏面板の各々の下部で前記散気管に沿う方向に、上下方向の複数のスリットが並設され、
前記散気管の下端よりも少なくとも5mm以上離れた位置で、且つ上下方向の複数のスリットの領域範囲に気液界面を有するように、前記散気管の下端と前記気液界面との間に空間を形成してなることを特徴とする散気装置。
(請求項2)
前記正面板と前記裏面板の間隔が、下方に向かって狭小となるように構成されることを特徴とする請求項1記載の散気装置。
(請求項3)
正面板と裏面板が対向し、且つ上流側仕切板と下流側仕切板が対向している方形状の筒状体であり、
該筒状体は、上部と底部が開口しており、
前記上流側仕切板と前記下流側仕切板の各々の上部には、散気管の外形に対応する切欠きが設けられ、
前記正面板と前記裏面板の各々の下部に、上下方向の複数のスリットが形成されていることを特徴とする散気孔カバー。
(請求項4)
対向する前記正面板と前記裏面板の間隔が、下方に向かって狭小となるように構成されることを特徴とする請求項3記載の散気孔カバー。 (Claim 1)
(A) an air diffuser having a plurality of air diffusers at the lower end;
(B) A front plate and a back plate that are arranged side by side so as to be in close contact with both side surfaces of the air diffuser and extend downward from the lower end of the air diffuser, and upstream of the front plate and the back plate An upstream partition plate and a downstream partition plate that seal openings formed on the side and the downstream side, and below the diffuser tube, the front plate and the back plate, and the upstream partition plate and the downstream It consists of an air diffuser cover whose bottom is released by a side partition plate,
A plurality of vertical slits are provided in parallel in the direction along the air diffuser at the lower part of each of the front plate and the back plate constituting the air diffuser cover of (B),
A space is provided between the lower end of the diffuser tube and the gas-liquid interface so as to have a gas-liquid interface at a position that is at least 5 mm away from the lower end of the diffuser tube and in the range of the plurality of slits in the vertical direction. An air diffuser characterized by being formed.
(Claim 2)
The air diffuser according toclaim 1, wherein an interval between the front plate and the back plate is configured to become narrower downward.
(Claim 3)
The front plate and the back plate are opposed to each other, and the upstream partition plate and the downstream partition plate are opposed to each other.
The cylindrical body has an open top and bottom,
At the upper part of each of the upstream partition plate and the downstream partition plate, a notch corresponding to the outer shape of the diffuser pipe is provided,
A diffuser cover, wherein a plurality of vertical slits are formed in the lower part of each of the front plate and the back plate.
(Claim 4)
The air diffuser cover according toclaim 3, wherein an interval between the front plate and the back plate facing each other is configured to become narrower downward.
(A)下端に複数の散気孔を有する散気管と、
(B)該散気管の両側面に密接して対向するように並設され、且つ前記散気管の下端より下方に延出してなる正面板と裏面板と、該正面板と該裏面板の上流側と下流側に形成される開口を封止する上流側仕切板と下流側仕切板とからなり、前記散気管の下方に、前記正面板と前記裏面板、及び前記上流側仕切板と前記下流側仕切板によって、底部が解放された散気孔カバーとからなり、
前記(B)の散気孔カバーを構成する前記正面板と前記裏面板の各々の下部で前記散気管に沿う方向に、上下方向の複数のスリットが並設され、
前記散気管の下端よりも少なくとも5mm以上離れた位置で、且つ上下方向の複数のスリットの領域範囲に気液界面を有するように、前記散気管の下端と前記気液界面との間に空間を形成してなることを特徴とする散気装置。
(請求項2)
前記正面板と前記裏面板の間隔が、下方に向かって狭小となるように構成されることを特徴とする請求項1記載の散気装置。
(請求項3)
正面板と裏面板が対向し、且つ上流側仕切板と下流側仕切板が対向している方形状の筒状体であり、
該筒状体は、上部と底部が開口しており、
前記上流側仕切板と前記下流側仕切板の各々の上部には、散気管の外形に対応する切欠きが設けられ、
前記正面板と前記裏面板の各々の下部に、上下方向の複数のスリットが形成されていることを特徴とする散気孔カバー。
(請求項4)
対向する前記正面板と前記裏面板の間隔が、下方に向かって狭小となるように構成されることを特徴とする請求項3記載の散気孔カバー。 (Claim 1)
(A) an air diffuser having a plurality of air diffusers at the lower end;
(B) A front plate and a back plate that are arranged side by side so as to be in close contact with both side surfaces of the air diffuser and extend downward from the lower end of the air diffuser, and upstream of the front plate and the back plate An upstream partition plate and a downstream partition plate that seal openings formed on the side and the downstream side, and below the diffuser tube, the front plate and the back plate, and the upstream partition plate and the downstream It consists of an air diffuser cover whose bottom is released by a side partition plate,
A plurality of vertical slits are provided in parallel in the direction along the air diffuser at the lower part of each of the front plate and the back plate constituting the air diffuser cover of (B),
A space is provided between the lower end of the diffuser tube and the gas-liquid interface so as to have a gas-liquid interface at a position that is at least 5 mm away from the lower end of the diffuser tube and in the range of the plurality of slits in the vertical direction. An air diffuser characterized by being formed.
(Claim 2)
The air diffuser according to
(Claim 3)
The front plate and the back plate are opposed to each other, and the upstream partition plate and the downstream partition plate are opposed to each other.
The cylindrical body has an open top and bottom,
At the upper part of each of the upstream partition plate and the downstream partition plate, a notch corresponding to the outer shape of the diffuser pipe is provided,
A diffuser cover, wherein a plurality of vertical slits are formed in the lower part of each of the front plate and the back plate.
(Claim 4)
The air diffuser cover according to
本発明によると、汚泥等により配管が閉塞せず、安定した散気を可能にし、散気管の洗浄が不要で、コスト抑えた散気装置及び散気孔カバーを提供することができる。
According to the present invention, it is possible to provide an air diffuser and an air diffuser cover that do not block the piping due to sludge and the like, enable stable air diffusion, do not need to clean the air diffuser, and reduce costs.
以下、図面を参照して本発明の実施の形態について説明する。
図1は、本発明の散気装置の一例を用いた実施形態を示す図である。
1は水槽であり、2は水槽1に浸漬された膜分離装置であり、3は膜分離装置2の下方に設置された散気装置である。4は散気用のブロワである。 Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram showing an embodiment using an example of an air diffuser according to the present invention.
Reference numeral 1 denotes a water tank, 2 denotes a membrane separator immersed in the water tank 1, and 3 denotes an air diffuser installed below the membrane separator 2. 4 is a blower for aeration.
図1は、本発明の散気装置の一例を用いた実施形態を示す図である。
1は水槽であり、2は水槽1に浸漬された膜分離装置であり、3は膜分離装置2の下方に設置された散気装置である。4は散気用のブロワである。 Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram showing an embodiment using an example of an air diffuser according to the present invention.
水槽1は、散気が必要な水槽であれば格別限定されるわけではないが、例えば、活性汚泥処理に採用される曝気槽が挙げられる。この場合、曝気槽内に散気装置3を設置されれば曝気槽内に撹拌空気を供給でき、活性汚泥に酸素を供給できる。
The water tank 1 is not particularly limited as long as it is a water tank that needs to be diffused. For example, an aeration tank employed for activated sludge treatment may be used. In this case, if the diffuser 3 is installed in the aeration tank, the stirring air can be supplied into the aeration tank, and oxygen can be supplied to the activated sludge.
また曝気槽内に膜分離装置を設置すれば沈殿槽のような固液分離槽を省略できる点で優れている。曝気槽に膜分離装置を設置する場合は、曝気槽を多段に設け、最終段の曝気槽に膜分離装置を設けることができる。
Also, if a membrane separation device is installed in the aeration tank, it is excellent in that a solid-liquid separation tank such as a precipitation tank can be omitted. When installing a membrane separation apparatus in an aeration tank, an aeration tank can be provided in multistage and a membrane separation apparatus can be provided in the last stage aeration tank.
膜分離装置の下方に散気装置3を設置し、気泡を上昇させるようにすれば、膜分離装置の膜洗浄に寄与できる。
If the air diffuser 3 is installed below the membrane separator to raise the bubbles, it can contribute to membrane cleaning of the membrane separator.
膜分離装置2に用いられる膜としては、例えば精密ろ過膜、限外ろ過膜などが挙げられ、膜形態としては、平膜型、チューブラー型などの何れでもよい。
Examples of the membrane used in the membrane separation device 2 include a microfiltration membrane and an ultrafiltration membrane, and the membrane form may be either a flat membrane type or a tubular type.
散気装置3は、下端に複数の散気孔を有する散気管30を備えており、散気管30の下方に散気孔カバー31を備えている。散気孔カバー31は、散気管30の下端より下方に延出するように形成される。
The air diffuser 3 includes an air diffuser tube 30 having a plurality of air diffuser holes at the lower end, and an air diffuser cover 31 below the air diffuser tube 30. The air diffuser cover 31 is formed to extend downward from the lower end of the air diffuser 30.
散気管30は、例えば、図2に示すように散気孔300を複数有している。なお図2は、図1における散気装置を下方から見た図面である。図示の例では、二つの散気孔300、300に一つの散気孔カバー31を設けている。
The air diffuser 30 has, for example, a plurality of air diffusers 300 as shown in FIG. 2 is a view of the air diffuser in FIG. 1 as viewed from below. In the illustrated example, one diffuser hole cover 31 is provided for two diffuser holes 300, 300.
散気孔カバー31は、図3に示すように散気管の両側面に密接して対向するように並設される正面板310と裏面板311を備える。
The air diffuser cover 31 includes a front plate 310 and a back plate 311 that are arranged side by side so as to closely face both side surfaces of the air diffuser as shown in FIG.
312、313は、正面板310と裏面板311の上流側と下流側に形成される開口を封止する上流側仕切板と下流側仕切板である。上流側仕切板312と下流側仕切板313は対向している。
312 and 313 are an upstream partition plate and a downstream partition plate that seal openings formed on the upstream side and the downstream side of the front plate 310 and the back plate 311. The upstream partition plate 312 and the downstream partition plate 313 are opposed to each other.
正面板310と裏面板311が対向し、上流側仕切板312と下流側仕切板313が対向しており、且つ正面板310や裏面板311が、上流側仕切板312や下流側仕切板313に直交して設けられることにより、散気孔カバー31は方形状の筒状体に形成される。筒状体の散気孔カバー31は上部及び底部が解放されており、314は底部の開口、315は上部の開口である。
The front plate 310 and the back plate 311 face each other, the upstream partition plate 312 and the downstream partition plate 313 face each other, and the front plate 310 and the back plate 311 touch the upstream partition plate 312 and the downstream partition plate 313. By being provided orthogonally, the air diffuser cover 31 is formed in a rectangular cylindrical body. The upper and bottom portions of the cylindrical air diffuser cover 31 are open, 314 is an opening in the bottom portion, and 315 is an opening in the upper portion.
正面板310と裏面板311は、散気管30の両側面に密接して対向するように並設される。ここで密接というのは、散気管30の下部と散気孔カバー31によって形成される空間316内の空気が下方のスリット317以外から外部に漏洩しない気密性が確保されるように接していることである。
The front plate 310 and the back plate 311 are juxtaposed so as to closely face both side surfaces of the air diffuser 30. Here, close contact means that the air in the space 316 formed by the lower portion of the diffuser tube 30 and the diffuser hole cover 31 is in contact with the lower slit 317 so as to ensure airtightness from leaking outside. is there.
密接させる手段としては、溶接(溶着)又は接着等を挙げることができる。例えば、正面板310と裏面板311が塩化ビニル等の樹脂板で形成されている場合は、該樹脂板を溶接することで散気管3の中間外周に固着することができる。
Examples of the means for intimate contact include welding (welding) or adhesion. For example, when the front plate 310 and the back plate 311 are formed of a resin plate such as vinyl chloride, the resin plate can be welded to be fixed to the intermediate outer periphery of the air diffusion tube 3.
上流側仕切板312や下流側仕切板313は、正面板310や裏面板311と一体的に形成され、空間316内の気密性が確保されることが好ましい。
The upstream side partition plate 312 and the downstream side partition plate 313 are preferably formed integrally with the front plate 310 and the back plate 311 so as to ensure airtightness in the space 316.
正面板310や裏面板311は、図3、図4に示すように内側に傾斜して、幅が狭小になるように形成することは好ましい。散気孔カバー31の底部から空気が漏洩するのを防ぐためである。散気管30の散気孔300から排出される空気の空気圧に対して、圧損を生じさせることで、容易に底部まで気液界面が下がることを防ぎ、漏洩を防ぐことができる。
It is preferable to form the front plate 310 and the back plate 311 so as to be inclined inward and to have a narrow width as shown in FIGS. This is to prevent air from leaking from the bottom of the air diffuser cover 31. By causing pressure loss with respect to the air pressure of the air discharged from the air diffuser 300 of the air diffuser 30, it is possible to prevent the gas-liquid interface from being easily lowered to the bottom and to prevent leakage.
上流側仕切板312や下流側仕切板313の上部は、散気管30の外形形状に対応する切欠きが形成され、その切欠きが散気管30に接して、空間316内の気密性が確保されるようになっている。この切欠きの形状は、散気管30の外形形状に対応していればよく、特に形状は限定されない。
A cutout corresponding to the outer shape of the air diffuser tube 30 is formed in the upper part of the upstream divider plate 312 and the downstream divider plate 313, and the cutout is in contact with the air diffuser tube 30 to ensure the airtightness in the space 316. It has become so. The shape of the notch is not particularly limited as long as it corresponds to the outer shape of the air diffusing tube 30.
散気管30、正面板310や裏面板311及び上流側仕切板312や下流側仕切板313は、ポリエチレン、ポリプロピレン、塩化ビニル、アクリル樹脂などの樹脂板を用いて形成されることが好ましい。
The diffuser tube 30, the front plate 310, the back plate 311, the upstream partition plate 312, and the downstream partition plate 313 are preferably formed using a resin plate such as polyethylene, polypropylene, vinyl chloride, or acrylic resin.
正面板310や裏面板311の各々の下部に並設されたスリット317は、散気管30に沿う方向に、上下方向に複数形成されている。
A plurality of slits 317 arranged in parallel below the front plate 310 and the back plate 311 are formed in the vertical direction in the direction along the air diffuser 30.
スリット317の幅は4~12mmの範囲が好ましく、長さは15~30mmの範囲が好ましい。
The width of the slit 317 is preferably in the range of 4 to 12 mm, and the length is preferably in the range of 15 to 30 mm.
即ち、図4に示すように、散気管30の下端(散気孔300の部位)をA、スリット317の上端をB1、スリット317の下端(正面板310や裏面板311の下端)をB2としたとき、スリット317は、散気管30の下端Aよりも少なくとも5mm以上離れた位置に形成される。そのように形成されることにより、上下方向のスリット317の領域範囲であるB1~B2までの範囲に気液界面Wを形成する。散気管30の下端と気液界面Wとの間に前述の空間316が形成される。なお、散気孔300は、散気管30の下端から円周方向の左右いずれかに多少ずれて設けられても良い。この場合、Aは、散気孔300の最下部位となる。
That is, as shown in FIG. 4, the lower end of the air diffuser 30 (the part of the air diffuser 300) is A, the upper end of the slit 317 is B1, and the lower end of the slit 317 (the lower end of the front plate 310 and the back plate 311) is B2. In some cases, the slit 317 is formed at a position at least 5 mm away from the lower end A of the air diffuser 30. By forming in this way, the gas-liquid interface W is formed in the range from B1 to B2, which is the area range of the slit 317 in the vertical direction. The aforementioned space 316 is formed between the lower end of the air diffuser 30 and the gas-liquid interface W. The air diffuser 300 may be provided slightly shifted from the lower end of the air diffuser 30 to the left or right in the circumferential direction. In this case, A is the lowest part of the air diffusion hole 300.
図1に示す散気装置において、ブロワ4から空気を散気管30に供給すると、散気孔300から空気が散気孔カバー31内の空間316に送られる。
In the air diffuser shown in FIG. 1, when air is supplied from the blower 4 to the air diffuser 30, air is sent from the air diffuser 300 to the space 316 in the air diffuser cover 31.
空間316内に供給された空気の圧力は、気液界面Wを所定位置に維持できるように調整される。
The pressure of the air supplied into the space 316 is adjusted so that the gas-liquid interface W can be maintained at a predetermined position.
気液界面Wは、上下方向のスリット317の領域範囲であるB1~B2までの範囲に形成される。このようにすることにより、空間316内に供給された空気はスリットから気泡となって外部に排出され、曝気槽内の撹拌や酸素供給、上部の膜分離装置の膜洗浄に効果的に機能する。
The gas-liquid interface W is formed in a range from B1 to B2, which is a region range of the vertical slit 317. By doing in this way, the air supplied in the space 316 becomes a bubble from the slit and is discharged to the outside, and effectively functions for agitation in the aeration tank, oxygen supply, and membrane cleaning of the upper membrane separation device. .
気液界面Wが上記のように形成されることにより、空間316の下部から空気が排出される事態や、気泡を形成できない事態を回避できる効果がある。
The formation of the gas-liquid interface W as described above has an effect of avoiding the situation where air is discharged from the lower part of the space 316 and the situation where bubbles cannot be formed.
スリット317が、散気管30の下端Aよりも少なくとも5mm以上離れた位置に形成されることにより、気液界面Wが上記のように形成されることになり、その結果、空間316内で汚泥等が飛沫しても、散気孔から離れているため、散気孔に汚泥が固着することを抑制できる。
By forming the slit 317 at a position at least 5 mm away from the lower end A of the air diffuser 30, the gas-liquid interface W is formed as described above. As a result, sludge and the like are formed in the space 316. Even if splashes, since it is away from the air holes, it is possible to prevent sludge from adhering to the air holes.
本発明の好ましい態様では、散気孔カバー31の底部を解放している。底部を解放していることにより、気液界面Wがスリットの領域範囲にあるため、水槽内の液によりスリットに汚泥等が付着しても、その汚泥等の乾燥を防ぐことができる。その結果、汚泥等の堆積を防ぐことができ、スリットの閉塞を防ぐことができる。
In the preferred embodiment of the present invention, the bottom of the air diffuser cover 31 is released. Since the gas-liquid interface W is in the range of the slit by releasing the bottom, even if sludge adheres to the slit due to the liquid in the water tank, drying of the sludge can be prevented. As a result, accumulation of sludge and the like can be prevented, and the clogging of the slit can be prevented.
さらに、底部から漏洩散気されない程度に、空間316内の空気圧を保つことにより、脈動を防ぐことができ、安定した散気をすることができる。
Furthermore, by maintaining the air pressure in the space 316 to such an extent that no leakage is diffused from the bottom, pulsation can be prevented and stable aeration can be achieved.
この実施態様では、散気孔カバー31は、散気管30の側面から下方に垂れ下った形態であり、従来のような1本の散気ノズルの先に設けられる形態ではない。そして、その散気孔カバー31は、1又は2以上の散気孔から噴出する空気を受け入れる空間316が形成されている。
In this embodiment, the air diffuser cover 31 is in a form that hangs downward from the side surface of the air diffuser tube 30, and is not a form that is provided at the tip of a single air diffuser nozzle as in the prior art. The air diffuser cover 31 is formed with a space 316 that receives air ejected from one or more air diffusers.
図示の例では二つの散気孔300、300から空間316に空気が供給されるようになっているが、一定数の散気孔に対して、それぞれ一つずつの散気孔カバー31を設けるようにすると、散気孔自体のオリフィス効果により、散気管30の空気圧は、圧損によって減圧され、空間316内の圧力を均等に保つことができる。
In the example shown in the figure, air is supplied to the space 316 from the two air holes 300, 300. However, if one air hole cover 31 is provided for each of a certain number of air holes, Due to the orifice effect of the air diffuser hole itself, the air pressure of the air diffuser 30 is reduced by the pressure loss, and the pressure in the space 316 can be kept uniform.
これに対して、従来のような一つの接続口に対して、一つの散気装置を設ける場合には、散気孔のオリフィス効果がなく、送気ヘッダの長さ方向における散気量の偏りや全体的な散気量の脈動が生じる問題がある。
On the other hand, when a single air diffuser is provided for a single connection port as in the prior art, there is no orifice effect of the air diffuser, and the amount of air diffused in the length direction of the air supply header There is a problem that pulsation of the overall air volume occurs.
次に、本発明の他の実施態様を説明する。
図5~図8は、本発明の他の実施態様を示す図である。
この態様は、水槽の底付近に散気装置を設置し、その上に膜分離装置を設け、散気装置と膜分離装置はいずれも水中に浸漬している。 Next, another embodiment of the present invention will be described.
5 to 8 show other embodiments of the present invention.
In this embodiment, an air diffuser is installed near the bottom of the water tank, a membrane separator is provided on the air diffuser, and both the air diffuser and the membrane separator are immersed in water.
図5~図8は、本発明の他の実施態様を示す図である。
この態様は、水槽の底付近に散気装置を設置し、その上に膜分離装置を設け、散気装置と膜分離装置はいずれも水中に浸漬している。 Next, another embodiment of the present invention will be described.
5 to 8 show other embodiments of the present invention.
In this embodiment, an air diffuser is installed near the bottom of the water tank, a membrane separator is provided on the air diffuser, and both the air diffuser and the membrane separator are immersed in water.
水槽1は、図8に示すように膜分離装置設置部位2Aと散気装置設置部位3Aが設けられており、その各々設置部位に、図5~図7に示す膜分離装置2や散気装置3が設置される。
As shown in FIG. 8, the water tank 1 is provided with a membrane separation device installation site 2A and an air diffusion device installation site 3A, and the membrane separation device 2 and the air diffusion device shown in FIGS. 3 is installed.
図5は、本発明の散気装置の一例を水槽に浸漬した状態を水槽の下方から見た図である。同図に示す散気装置3は、ヘッダ管30Aから2本の散気管30、30が接続された形態をしている。
FIG. 5 is a view of an example of the diffuser of the present invention immersed in a water tank as viewed from below the water tank. The air diffusing device 3 shown in the figure has a configuration in which two air diffusing tubes 30 and 30 are connected from a header tube 30A.
散気管30の下方には、図6に示すように、2個の散気孔300、300に対して、一つの散気孔カバー31が設けられ、全体では、5つのブロックに分けられ、各ブロックの上方に膜分離装置2を構成する膜モジュール20が配置されている。
Below the air diffuser 30, as shown in FIG. 6, one air diffuser cover 31 is provided for the two air diffusers 300, 300, which are divided into five blocks as a whole. A membrane module 20 constituting the membrane separation device 2 is disposed above.
図7は、5つの膜モジュールで構成された膜分離装置2の態様を示している。同図において、20は、膜分離装置2の膜モジュールであり、21は吸引ヘッダ管である。
FIG. 7 shows an embodiment of the membrane separation device 2 configured with five membrane modules. In the figure, 20 is a membrane module of the membrane separation device 2, and 21 is a suction header tube. *
膜モジュール20から吸引された透過水は、ホース(図8に符号22で示す)を介して、吸引孔210、210・・に送られ、吸引ヘッダ管21に集められ、透過水が得られる。
The permeated water sucked from the membrane module 20 is sent to the suction holes 210, 210,... Via a hose (indicated by reference numeral 22 in FIG. 8), and collected in the suction header pipe 21 to obtain permeated water.
以上の態様では、膜分離装置を5つの膜モジュールで構成したが、その数は限定されず、目標透過水量に応じて、数を増減できる。また1つの膜分離装置の膜面積を増加させれば膜分離装置の設置数を削減できる。
In the above embodiment, the membrane separation device is constituted by five membrane modules, but the number is not limited, and the number can be increased or decreased according to the target permeated water amount. Further, if the membrane area of one membrane separation device is increased, the number of installed membrane separation devices can be reduced.
本発明では、散気装置3から、気泡を発生させて上方の膜の洗浄を行い、散気装置自体の洗浄は不要なため、当該洗浄設備や洗浄作業を省略できる。
In the present invention, bubbles are generated from the air diffusing device 3 to clean the upper film and the air diffusing device itself does not need to be cleaned, so that the cleaning equipment and the cleaning work can be omitted.
以下に、本発明の実施例について説明するが、本発明はかかる実施例により限定されない。
Hereinafter, examples of the present invention will be described, but the present invention is not limited to the examples.
(実施例1)
図1に示すように、下端に複数の散気孔を有する散気管30を備えており、散気管30の下方に散気孔カバー31を溶接した散気装置3を製作し、散気試験を行った。
散気管30は、図2に示すように、下端に複数の散気孔を有する。
散気孔カバー31は、図3に示すように、散気管の両側面に密接して対向するように並設され、且つ散気管の下端より下方に延出してなる正面板310と裏面板311と、正面板310と裏面板311の上流側と下流側に形成される開口を封止する上流側仕切板312と下流側仕切板313とからなる。
散気管30及び散気孔カバー31は、以下仕様となるように設計した。
(散気管)
散気量:約1,600L/分
材質:塩化ビニル
本数:2本
サイズ:管直径×長さ=50mm×約1,900mm
散気孔:孔直径20mm、10個/本(図5参照)
(散気孔カバー)
材質:塩化ビニル
散気孔カバー数:5ブロック/本;2個の散気孔に対して1ブロックの散気孔カバー(図6参照)
スリット数:散気孔カバー1個につき、12箇所;正面板6箇所、裏面板6箇所(図3参照)
スリット:上端半円形状;幅6mm、長さ20mm
気液界面:散気管の下端よりも5mm以上離れた位置(図4参照) Example 1
As shown in FIG. 1, anair diffuser 30 having a plurality of air diffuser holes at the lower end and a diffuser cover 31 welded to the lower part of the air diffuser pipe 30 is manufactured, and an air diffuser test is performed. .
As shown in FIG. 2, theair diffuser 30 has a plurality of air diffusers at the lower end.
As shown in FIG. 3, theair diffuser cover 31 is arranged in parallel so as to be in close contact with both side surfaces of the air diffuser, and extends downward from the lower end of the air diffuser. The upstream partition plate 312 and the downstream partition plate 313 seal the openings formed on the upstream side and the downstream side of the front plate 310 and the back plate 311.
Theair diffuser 30 and the air diffuser cover 31 were designed to satisfy the following specifications.
(Air diffuser)
Aeration amount: approx. 1,600 L / min Material: Vinyl chloride Number: 2 Sizes: Pipe diameter x length = 50 mm x approx. 1,900 mm
Air diffuser:Hole diameter 20 mm, 10 holes / piece (see FIG. 5)
(Air diffuser cover)
Material: Vinyl chloride Number of air diffuser covers: 5 blocks / piece; 1 air diffuser cover for 2 diffuser holes (see Fig. 6)
Number of slits: 12 locations per diffuser cover; 6 locations on the front plate, 6 locations on the back plate (see FIG. 3)
Slit: upper end semicircular shape; width 6mm, length 20mm
Gas-liquid interface: a position 5 mm or more away from the lower end of the diffuser (see Fig. 4)
図1に示すように、下端に複数の散気孔を有する散気管30を備えており、散気管30の下方に散気孔カバー31を溶接した散気装置3を製作し、散気試験を行った。
散気管30は、図2に示すように、下端に複数の散気孔を有する。
散気孔カバー31は、図3に示すように、散気管の両側面に密接して対向するように並設され、且つ散気管の下端より下方に延出してなる正面板310と裏面板311と、正面板310と裏面板311の上流側と下流側に形成される開口を封止する上流側仕切板312と下流側仕切板313とからなる。
散気管30及び散気孔カバー31は、以下仕様となるように設計した。
(散気管)
散気量:約1,600L/分
材質:塩化ビニル
本数:2本
サイズ:管直径×長さ=50mm×約1,900mm
散気孔:孔直径20mm、10個/本(図5参照)
(散気孔カバー)
材質:塩化ビニル
散気孔カバー数:5ブロック/本;2個の散気孔に対して1ブロックの散気孔カバー(図6参照)
スリット数:散気孔カバー1個につき、12箇所;正面板6箇所、裏面板6箇所(図3参照)
スリット:上端半円形状;幅6mm、長さ20mm
気液界面:散気管の下端よりも5mm以上離れた位置(図4参照) Example 1
As shown in FIG. 1, an
As shown in FIG. 2, the
As shown in FIG. 3, the
The
(Air diffuser)
Aeration amount: approx. 1,600 L / min Material: Vinyl chloride Number: 2 Sizes: Pipe diameter x length = 50 mm x approx. 1,900 mm
Air diffuser:
(Air diffuser cover)
Material: Vinyl chloride Number of air diffuser covers: 5 blocks / piece; 1 air diffuser cover for 2 diffuser holes (see Fig. 6)
Number of slits: 12 locations per diffuser cover; 6 locations on the front plate, 6 locations on the back plate (see FIG. 3)
Slit: upper end semicircular shape; width 6mm, length 20mm
Gas-liquid interface: a position 5 mm or more away from the lower end of the diffuser (see Fig. 4)
(試験条件)
九州地区の汚泥再生処理センターでの活性汚泥処理における固液分離用浸漬膜の散気用として、原則24時間運転(装置の点検や膜の薬品洗浄時を除く)で試験を行った。試験期間は、約14ヶ月であった。 (Test conditions)
Tests were conducted in principle for 24 hours (excluding equipment inspection and chemical cleaning of membranes) for aeration of solid-liquid separation membranes in activated sludge treatment at the sludge recycling treatment center in the Kyushu area. The test period was about 14 months.
九州地区の汚泥再生処理センターでの活性汚泥処理における固液分離用浸漬膜の散気用として、原則24時間運転(装置の点検や膜の薬品洗浄時を除く)で試験を行った。試験期間は、約14ヶ月であった。 (Test conditions)
Tests were conducted in principle for 24 hours (excluding equipment inspection and chemical cleaning of membranes) for aeration of solid-liquid separation membranes in activated sludge treatment at the sludge recycling treatment center in the Kyushu area. The test period was about 14 months.
その結果、試験期間中に、散気装置を空気や水による洗浄に供する必要がなかった。汚泥が飛散したとしても、上記のような構成であることによって、散気孔やスリットに汚泥が付着し、閉塞してしまう問題等が発生しなかったからである。
また、散気孔カバー内の空気圧が保たれたことによって、脈動が防止されたために、散気量に偏りが発生せず、安定した散気を行うことができた。
また、事前の試験では、上記装置において、気液界面が散気管の下端よりも5mm未満の場合には、上述した安定した散気を行うことができなかった。 As a result, it was not necessary to subject the air diffuser to cleaning with air or water during the test period. This is because even if the sludge is scattered, the configuration as described above does not cause a problem that the sludge adheres to the air holes and slits and is blocked.
Further, since the pulsation was prevented by maintaining the air pressure in the air diffuser cover, there was no bias in the amount of air diffused, and stable air diffusion could be performed.
Moreover, in the prior test, in the above apparatus, when the gas-liquid interface is less than 5 mm from the lower end of the diffuser tube, the above-described stable aeration cannot be performed.
また、散気孔カバー内の空気圧が保たれたことによって、脈動が防止されたために、散気量に偏りが発生せず、安定した散気を行うことができた。
また、事前の試験では、上記装置において、気液界面が散気管の下端よりも5mm未満の場合には、上述した安定した散気を行うことができなかった。 As a result, it was not necessary to subject the air diffuser to cleaning with air or water during the test period. This is because even if the sludge is scattered, the configuration as described above does not cause a problem that the sludge adheres to the air holes and slits and is blocked.
Further, since the pulsation was prevented by maintaining the air pressure in the air diffuser cover, there was no bias in the amount of air diffused, and stable air diffusion could be performed.
Moreover, in the prior test, in the above apparatus, when the gas-liquid interface is less than 5 mm from the lower end of the diffuser tube, the above-described stable aeration cannot be performed.
1:水槽
2:膜分離装置
20:膜モジュール
21:吸引ヘッダ管
210:吸引孔
22:ホース
3:散気装置
30A:ヘッダ管
30:散気管
300:散気孔
31:散気孔カバー
310:正面板
311:裏面板
312:上流側仕切板
313:下流側仕切板
314,315:開口
316:空間
317:スリット
4:ブロワ 1: Water tank 2: Membrane separator 20: Membrane module 21: Suction header pipe 210: Suction hole 22: Hose 3:Air diffuser 30A: Header pipe 30: Air diffuser pipe 300: Air diffuser hole 31: Air diffuser cover 310: Front plate 311: Back plate 312: Upstream partition plate 313: Downstream partition plate 314, 315: Opening 316: Space 317: Slit 4: Blower
2:膜分離装置
20:膜モジュール
21:吸引ヘッダ管
210:吸引孔
22:ホース
3:散気装置
30A:ヘッダ管
30:散気管
300:散気孔
31:散気孔カバー
310:正面板
311:裏面板
312:上流側仕切板
313:下流側仕切板
314,315:開口
316:空間
317:スリット
4:ブロワ 1: Water tank 2: Membrane separator 20: Membrane module 21: Suction header pipe 210: Suction hole 22: Hose 3:
Claims (4)
- (A)下端に複数の散気孔を有する散気管と、
(B)該散気管の両側面に密接して対向するように並設され、且つ前記散気管の下端より下方に延出してなる正面板と裏面板と、該正面板と該裏面板の上流側と下流側に形成される開口を封止する上流側仕切板と下流側仕切板とからなり、前記散気管の下方に、前記正面板と前記裏面板、及び前記上流側仕切板と前記下流側仕切板によって、底部が解放された散気孔カバーとからなり、
前記(B)の散気孔カバーを構成する前記正面板と前記裏面板の各々の下部で前記散気管に沿う方向に、上下方向の複数のスリットが並設され、
前記散気管の下端よりも少なくとも5mm以上離れた位置で、且つ上下方向の複数のスリットの領域範囲に気液界面を有するように、前記散気管の下端と前記気液界面との間に空間を形成してなることを特徴とする散気装置。 (A) an air diffuser having a plurality of air diffusers at the lower end;
(B) A front plate and a back plate that are arranged side by side so as to be in close contact with both side surfaces of the air diffuser and extend downward from the lower end of the air diffuser, and upstream of the front plate and the back plate An upstream partition plate and a downstream partition plate that seal openings formed on the side and the downstream side, and below the diffuser tube, the front plate and the back plate, and the upstream partition plate and the downstream It consists of an air diffuser cover whose bottom is released by a side partition plate,
A plurality of vertical slits are provided in parallel in the direction along the air diffuser at the lower part of each of the front plate and the back plate constituting the air diffuser cover of (B),
A space is provided between the lower end of the diffuser tube and the gas-liquid interface so as to have a gas-liquid interface at a position that is at least 5 mm away from the lower end of the diffuser tube and in the range of the plurality of slits in the vertical direction. An air diffuser characterized by being formed. - 前記正面板と前記裏面板の間隔が、下方に向かって狭小となるように構成されることを特徴とする請求項1記載の散気装置。 The air diffuser according to claim 1, wherein an interval between the front plate and the back plate is configured to become narrower downward.
- 正面板と裏面板が対向し、且つ上流側仕切板と下流側仕切板が対向している方形状の筒状体であり、
該筒状体は、上部と底部が開口しており、
前記上流側仕切板と前記下流側仕切板の各々の上部には、散気管の外形に対応する切欠きが設けられ、
前記正面板と前記裏面板の各々の下部に、上下方向の複数のスリットが形成されていることを特徴とする散気孔カバー。 The front plate and the back plate are opposed to each other, and the upstream partition plate and the downstream partition plate are opposed to each other.
The cylindrical body has an open top and bottom,
At the upper part of each of the upstream partition plate and the downstream partition plate, a notch corresponding to the outer shape of the diffuser pipe is provided,
A diffuser cover, wherein a plurality of vertical slits are formed in the lower part of each of the front plate and the back plate. - 対向する前記正面板と前記裏面板の間隔が、下方に向かって狭小となるように構成されることを特徴とする請求項3記載の散気孔カバー。 The air diffuser cover according to claim 3, wherein an interval between the front plate and the back plate facing each other is configured to become narrower downward.
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0660494U (en) * | 1993-01-25 | 1994-08-23 | 進 岸本 | Air diffuser |
JPH0985277A (en) * | 1995-09-21 | 1997-03-31 | Inax Corp | Air diffusion pipe |
JPH10286444A (en) * | 1997-04-11 | 1998-10-27 | Maezawa Ind Inc | Immersion type membrane filter device |
JP2011088048A (en) * | 2009-10-21 | 2011-05-06 | Utsunomiya Kogyo Kk | Apparatus for removing scum |
-
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0660494U (en) * | 1993-01-25 | 1994-08-23 | 進 岸本 | Air diffuser |
JPH0985277A (en) * | 1995-09-21 | 1997-03-31 | Inax Corp | Air diffusion pipe |
JPH10286444A (en) * | 1997-04-11 | 1998-10-27 | Maezawa Ind Inc | Immersion type membrane filter device |
JP2011088048A (en) * | 2009-10-21 | 2011-05-06 | Utsunomiya Kogyo Kk | Apparatus for removing scum |
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