JP3146275B2 - Anaerobic wastewater treatment method and apparatus - Google Patents
Anaerobic wastewater treatment method and apparatusInfo
- Publication number
- JP3146275B2 JP3146275B2 JP16169194A JP16169194A JP3146275B2 JP 3146275 B2 JP3146275 B2 JP 3146275B2 JP 16169194 A JP16169194 A JP 16169194A JP 16169194 A JP16169194 A JP 16169194A JP 3146275 B2 JP3146275 B2 JP 3146275B2
- Authority
- JP
- Japan
- Prior art keywords
- anaerobic
- sewage treatment
- air
- sewage
- sludge
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- Y02W10/12—
Landscapes
- Purification Treatments By Anaerobic Or Anaerobic And Aerobic Bacteria Or Animals (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、処理水質の向上を図る
ことのできる嫌気性汚水処理方法及びその装置に関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anaerobic sewage treatment method and apparatus capable of improving the quality of treated water.
【0002】[0002]
【従来の技術】嫌気性微生物の働きを利用して汚水を浄
化する嫌気性汚水処理装置では、汚泥は曝気攪拌されな
いために、槽底に沈降堆積する。このため、堆積した汚
泥はメタン菌や硫黄菌等の嫌気性微生物等によって、メ
タンガスや硫化水素等に腐食分解され、これが悪臭の元
になっていた。さらに、沈降堆積した汚泥中の嫌気性微
生物は、汚水と接触しなくなるために、嫌気性微生物に
よる汚水処理が十分に行われなかった。従来、かかる問
題を是正するために、汚水処理槽内に水中攪拌翼を設け
た装置が提案されている。2. Description of the Related Art In an anaerobic sewage treatment apparatus for purifying sewage water by utilizing the action of anaerobic microorganisms, sludge is settled and deposited on a tank bottom because it is not aerated and stirred. For this reason, the deposited sludge is corroded and decomposed into methane gas, hydrogen sulfide and the like by anaerobic microorganisms such as methane bacteria and sulfur bacteria, and this has caused a bad smell. Furthermore, the anaerobic microorganisms in the sedimented sludge do not come into contact with the sewage, so that the sewage treatment by the anaerobic microorganisms was not sufficiently performed. Conventionally, in order to correct such a problem, a device having a submerged stirring blade in a sewage treatment tank has been proposed.
【0003】[0003]
【発明が解決しようとする課題】しかし、水中撹拌翼を
設けた嫌気性汚水処理装置では、水中撹拌翼を回転させ
るためにモータや回転軸等の金属材料が多く用いられる
ために、腐食し易く、耐久性に問題があった。またコス
ト的にも割高でもあった。これに対して、本願発明者
は、嫌気性汚水処理装置において処理水質の向上を図る
ために鋭意研究を行い、嫌気性汚水処理装置においても
嫌気性微生物を不活性状態にしない程度のエアーの供給
により、その処理水質が向上することを見いだした。However, in an anaerobic sewage treatment apparatus provided with a submerged stirring blade, metal materials such as a motor and a rotating shaft are often used to rotate the submerged stirring blade. , There was a problem in durability. It was also expensive in terms of cost. In contrast, the present inventor has conducted intensive studies in order to improve the quality of treated water in the anaerobic sewage treatment apparatus, can have your anaerobic sewage treatment equipment so as not to anaerobic microbes inactive It has been found that the supply of air improves the quality of the treated water.
【0004】[0004]
【課題を解決するための手段】本発明に係る請求項1記
載の嫌気性汚水処理方法は、一つの嫌気性汚水処理槽内
へ生活排水等の被処理水を流入させ、当該一つの嫌気性
汚水処理槽内で嫌気性微生物によって汚水を浄化し、汚
泥を沈殿堆積させることで、処理された汚水と汚泥とを
沈殿分離させる方式の汚水処理方法において、嫌気性汚
水処理槽内に嫌気性微生物を不活性状態にしない程度の
汚水攪拌用エアーを供給して汚水処理する方法である。Anaerobic wastewater processing method according to claim 1, wherein according to the present invention SUMMARY OF] is allowed to flow into the water to be treated of domestic wastewater such as the one anaerobic sewage treatment tank, the one anaerobic purifies sewage by anaerobic microorganisms in the sewage treatment tank, fouling
In the sewage treatment method of sedimentation and separation of the treated sewage and sludge by sedimentation and sedimentation of sewage, sewage agitation that does not bring anaerobic microorganisms into an inert state in an anaerobic sewage treatment tank. It is a method of supplying waste air to treat wastewater.
【0005】本発明に係る請求項2記載の嫌気性汚水処
理方法は、請求項1記載の嫌気性汚水処理方法における
前記エアーを間欠的に供給する方法である。An anaerobic sewage treatment method according to a second aspect of the present invention is a method for intermittently supplying the air in the anaerobic sewage treatment method according to the first aspect.
【0006】本発明に係る請求項3記載の嫌気性汚水処
理方法は、請求項2記載の嫌気性汚水方法におけるエア
ーの供給時のエアー量が、酸素量で0.5〜10g/m
3分である方法である。According to a third aspect of the present invention, there is provided the anaerobic sewage treatment method according to the second aspect, wherein the amount of air supplied in the anaerobic sewage method is 0.5 to 10 g / m 2 in terms of oxygen.
A method that is three minutes.
【0007】本発明に係る請求項4記載の嫌気性汚水処
理装置は、一つの嫌気性汚水処理槽内へ生活排水等の被
処理水を流入させ、当該一つの嫌気性汚水処理槽内で嫌
気性微生物によって汚水を浄化し、汚泥を沈殿堆積させ
ることで、処理された汚水と汚泥とを沈殿分離させる方
式の汚水処理装置において、嫌気性汚水処理槽内の下部
位置に散気装置が配設され、該散気装置からは嫌気性微
生物を不活性状態にしない程度の汚水攪拌用エアーが供
給される装置である。[0007] Anaerobic sewage treatment apparatus according to claim 4, wherein according to the present invention, allowed to flow into the water to be treated, such as domestic wastewater to an anaerobic sewage treatment tank, anaerobic in the one anaerobic sewage treatment tank Purifies sewage by germs and deposits sludge
In this way, in a method of sedimentation and separation of treated sewage and sludge , a diffuser is disposed at a lower position in an anaerobic sewage treatment tank, and a diffuser is provided. Is a device to which sewage stirring air is supplied to such an extent that the anaerobic microorganisms are not made inactive.
【0008】本発明に係る請求項5記載の嫌気性汚水処
理装置は、請求項4記載の嫌気性汚水処理装置における
前記エアーが間欠的に供給される装置である。An anaerobic sewage treatment apparatus according to a fifth aspect of the present invention is the anaerobic sewage treatment apparatus according to the fourth aspect, wherein the air is intermittently supplied.
【0009】本発明に係る請求項6記載の嫌気性汚水処
理装置は、請求項5記載の嫌気性汚水処理装置における
エアーの供給時のエアー量が、酸素量で0.5〜10g
/m3分である装置である。In the anaerobic sewage treatment apparatus according to claim 6 of the present invention, the amount of air in the anaerobic sewage treatment apparatus according to claim 5 when supplying air is 0.5 to 10 g in terms of oxygen amount.
/ M 3 minutes.
【0010】[0010]
【作用】請求項1記載の本発明に係る嫌気性汚水処理方
法によると、嫌気性汚水処理槽内に嫌気性微生物を不活
性状態にしない程度の汚水攪拌用エアーを供給するの
で、沈降堆積した汚泥中の嫌気性微生物と汚水中の有機
物がより均一に作用し、処理水質の向上を図ることがで
きる。According to the method for treating anaerobic sewage according to the present invention as set forth in claim 1, since air for stirring sewage is supplied into the anaerobic sewage treatment tank to such an extent that the anaerobic microorganisms are not inactivated, sedimentation and sedimentation occur. The anaerobic microorganisms in the sludge and the organic matter in the sewage work more uniformly, and the quality of the treated water can be improved.
【0011】請求項4記載の本発明に係る嫌気性汚水処
理装置によると、上記嫌気性汚水処理方法を実施する装
置であり、特に散気装置を処理槽内の下部位置に設けて
いるので、堆積する汚泥の攪拌効果が高く、また従来の
水中攪拌翼を用いた場合に比べて、腐食のおそれも少な
いので耐久性にも富み、低コストでもある。According to the anaerobic sewage treatment apparatus according to the present invention, the anaerobic sewage treatment method is an apparatus for performing the above-described anaerobic sewage treatment method. In particular, since a diffuser is provided at a lower position in the treatment tank, The effect of stirring the accumulated sludge is high, and there is less danger of corrosion as compared with the case where a conventional underwater stirring blade is used, so that the durability is high and the cost is low.
【0012】そして、例えば請求項2及び5記載のよう
に、エアーを間欠的に供給することで、嫌気性微生物を
不活性状態にしないで、かつ処理水質の向上を容易に図
ることができる。[0012] By intermittently supplying air, for example, the anaerobic microorganisms can be prevented from being inactivated and the quality of treated water can be easily improved.
【0013】特に、汚泥の攪拌効果を十分奏した上で嫌
気処理を行うためには,請求項3及び6記載のような酸
素量が好ましいものである。In particular, in order to perform the anaerobic treatment while sufficiently exhibiting the effect of stirring the sludge, the amount of oxygen as described in the third and sixth aspects is preferable.
【0014】[0014]
【実施例】以下、本発明に係る嫌気性汚水処理方法及び
その装置の実施例について図面を参照して説明する。図
1は沈殿分離方式の嫌気性汚水処理装置に本発明を適用
した場合を示す概略断面図である。図1に示す嫌気性汚
水処理装置1は、その本体が処理槽2からなり、図示し
ないポンプの作動によって生活排水等の被処理水は処理
槽2の上面に開口されたマンホール3から流入されて嫌
気性微生物による汚水処理がなされ、嫌気処理されたの
ち、処理槽2の上部壁面に開口した放流口4から放流さ
れる構成である。処理槽2内に堆積した汚泥は、処理槽
2の上部より蛇腹ホースを引き入れて吸引して排出され
る。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the method and apparatus for treating anaerobic sewage according to the present invention will be described below with reference to the drawings. FIG. 1 is a schematic sectional view showing a case where the present invention is applied to an anaerobic sewage treatment apparatus of a sedimentation separation type. An anaerobic sewage treatment apparatus 1 shown in FIG. 1 has a main body composed of a treatment tank 2, and water to be treated such as domestic wastewater flows into a manhole 3 opened on the upper surface of the treatment tank 2 by the operation of a pump (not shown). Sewage treatment by anaerobic microorganisms is performed, and after anaerobic treatment, the effluent is discharged from a discharge port 4 opened on the upper wall surface of the treatment tank 2. The sludge that has accumulated in the processing tank 2 is drawn out from the upper part of the processing tank 2 by drawing in a bellows hose and discharged.
【0015】処理槽2の下部には、槽内をエアーによっ
て攪拌するための散気装置5が設置されている。この散
気装置5に供給されるエアーは、槽外に配したエアー供
給装置6からエアー供給管7を通して供給されるように
なされている。図面では、散気装置5が処理槽2の底か
らやや上方部に置かれているが、勿論底面上に載置して
もよい。An air diffuser 5 for stirring the inside of the tank with air is installed below the processing tank 2. The air supplied to the air diffuser 5 is supplied from an air supply device 6 provided outside the tank through an air supply pipe 7. In the drawing, the air diffuser 5 is placed slightly above the bottom of the processing tank 2, but may be placed on the bottom surface.
【0016】ここで、前記エアー供給装置6は、所定の
時間間隔で間欠運転されるようになされている。具体的
には、例えば30〜120分間に1回だけ1〜60秒の
間エアーを供給するようになされている。勿論、この数
値は、処理槽2の大きさ、流入される汚水の質、エアー
供給装置6のエアー供給容量等によって異なるが嫌気性
微生物を不活性状態にしない程度でBOD,COD,全
窒素分の除去率が高くなるように適宜調整される。ま
た、エアー量が少ないと汚泥の攪拌効果が十分でなく、
一方エアー量が多いと嫌気処理にならないので、エアー
供給時のエアー量としては、その酸素量が0.5〜10
g/m3分であるのが好ましい。Here, the air supply device 6 is operated intermittently at predetermined time intervals. Specifically, for example, air is supplied only once every 30 to 120 minutes for 1 to 60 seconds. Of course, this value varies depending on the size of the treatment tank 2, the quality of the inflowed wastewater, the air supply capacity of the air supply device 6, and the like. Is appropriately adjusted so as to increase the removal rate. In addition, if the amount of air is small, the effect of stirring the sludge is not sufficient,
On the other hand, if the amount of air is large, anaerobic treatment will not be performed.
g / m 3 minutes is preferred.
【0017】而して、上記構成からなる嫌気性汚水処理
装置においては、流入汚水中の重力沈降によってSS
(Suspended Sludge:懸濁性の固形物
質、砂、汚泥等の有機物をいう)が除去されるが、一方
で前記エアー供給装置6の間欠運転により、処理槽2内
にエアーの作用によってSSの凝集効果が一層促進され
て沈降速度が向上するので、SSの除去率が向上する。
SSの除去率を示す実験結果を以下の表1に示してい
る。なお、表1中の間欠攪拌とは、本実験では60分間
に1回(10秒間)のエアー供給を行った場合を示して
いる。Thus, in the anaerobic sewage treatment apparatus having the above-mentioned structure, SS is set by gravity sedimentation in the inflow sewage.
(Suspended Sludge: refers to organic matter such as suspended solid matter, sand, and sludge) is removed. On the other hand, the intermittent operation of the air supply device 6 causes agglomeration of SS in the treatment tank 2 by the action of air. Since the effect is further promoted and the sedimentation speed is improved, the SS removal rate is improved.
The experimental results showing the removal rate of SS are shown in Table 1 below. The term “intermittent stirring” in Table 1 indicates a case where air supply is performed once every 60 minutes (10 seconds) in this experiment.
【0018】[0018]
【表1】 [Table 1]
【0019】また、上記エアーの供給によって攪拌さ
れ、嫌気性汚泥と流入汚水中の有機物等の栄養分との接
触頻度が増加するので、結果としてBOD,COD,窒
素分,リン,n−ヘキサン等の成分も同様に効率よく処
理されることになって、以下の表2,表3,表4に示す
ようにBOD,COD,全窒素分の除去率を高めること
ができた。なお、表2〜表4中で、間欠攪拌とあるの
は、表1と同じ条件であり、また採水例A〜Gも表1の
実験に使用した採水と同じものを使用している。而し
て、BOD,COD,全窒素の除去率を示す実験結果は
以下の表2ないし表4の如くである。Further, the air is stirred by the supply of the air, and the frequency of contact between the anaerobic sludge and nutrients such as organic matter in the inflowing sewage is increased. As a result, BOD, COD, nitrogen, phosphorus, n-hexane and the like are consequently increased. The components were similarly treated efficiently, and the removal rates of BOD, COD and total nitrogen could be increased as shown in Tables 2, 3 and 4 below. In Tables 2 to 4, the term "intermittent stirring" means the same conditions as in Table 1, and the same water sampling examples A to G as those used in the experiments in Table 1 are used. . Tables 2 to 4 show the experimental results showing the removal rates of BOD, COD and total nitrogen.
【0020】[0020]
【表2】 [Table 2]
【0021】[0021]
【表3】 [Table 3]
【0022】[0022]
【表4】 [Table 4]
【0023】また、間欠的な攪拌によって、メタンガ
ス、硫化水素濃度が低いうちに槽外へ飛散されるため
に、本実験において悪臭の減少も確認できた。Further, since the methane gas and hydrogen sulfide were scattered outside the tank while the concentration of methane gas and hydrogen sulfide was low due to the intermittent stirring, it was also confirmed in this experiment that the offensive odor was reduced.
【0024】図2は濾床方式の嫌気性汚水処理装置8に
本発明を適用した場合を示す概略断面図である。同図で
は、被処理水は処理槽2の下部から導入され、中央部分
には嫌気性汚泥を固定させる濾床9が設けられている
が、その他の構成は図1と同じである。FIG. 2 is a schematic sectional view showing a case where the present invention is applied to an anaerobic sewage treatment apparatus 8 of a filter bed type. In this figure, the water to be treated is introduced from the lower part of the treatment tank 2 and a filter bed 9 for fixing anaerobic sludge is provided in the center part, but the other configuration is the same as that of FIG.
【0025】[0025]
【発明の効果】以上述べたように、本発明の嫌気性汚水
処理方法及びその装置によると、BOD,COD,窒素
分の除去率を高めることができた。また悪臭も減少し
た。さらに、嫌気性汚水処理装置は散気装置を設けるの
で、水中攪拌翼を設けた場合に比べて、腐食の問題も少
ないために耐久性が向上し、また低コストで実施できる
等の利点がある。As described above, according to the anaerobic sewage treatment method and apparatus of the present invention, the removal rates of BOD, COD and nitrogen can be increased. The odor has also been reduced. Furthermore, since the anaerobic sewage treatment apparatus is provided with a diffuser, there is an advantage that, compared to the case where an underwater stirring blade is provided, there is less corrosion problem, the durability is improved, and the apparatus can be implemented at low cost. .
【図1】本発明に係る嫌気性汚水処理装置の一例を示す
概略断面図である。FIG. 1 is a schematic sectional view showing an example of an anaerobic sewage treatment apparatus according to the present invention.
【図2】本発明に係る嫌気性汚水処理装置の他の例を示
す概略断面図である。FIG. 2 is a schematic sectional view showing another example of the anaerobic sewage treatment apparatus according to the present invention.
1,8…嫌気性汚水処理装置 2…処理槽 5…散気装置 6…エアー供給装置 7…エアー供給管 1,8: Anaerobic sewage treatment device 2: Treatment tank 5: Aeration device 6: Air supply device 7: Air supply pipe
Claims (6)
被処理水を流入させ、当該一つの嫌気性汚水処理槽内で
嫌気性微生物によって汚水を浄化し、汚泥を沈殿堆積さ
せることで、処理された汚水と汚泥とを沈殿分離させる
方式の汚水処理方法において、嫌気性汚水処理槽内に嫌
気性微生物を不活性状態にしない程度の汚水攪拌用エア
ーを供給して汚水処理することを特徴とする嫌気性汚水
処理方法。1. A allowed to flow into the water to be treated of domestic wastewater such as the one anaerobic sewage treatment tank, purifies sewage by anaerobic microorganisms in the one anaerobic sewage treatment tank, is precipitated deposited sludge
It is to, in the wastewater treatment method of the treated sewage sludge and the sedimentation separation makes <br/> method, the degree of sewage stirring air without anaerobic microorganisms anaerobic sewage treatment tank into an inactive state supply An anaerobic sewage treatment method, comprising:
徴とする請求項1記載の嫌気性汚水処理方法。2. The anaerobic sewage treatment method according to claim 1, wherein the air is supplied intermittently.
0.5〜10g/m3分であることを特徴とする請求項
2記載の嫌気性汚水処理方法。3. The anaerobic sewage treatment method according to claim 2, wherein the amount of air when supplying air is 0.5 to 10 g / m 3 minutes in terms of oxygen.
被処理水を流入させ、当該一つの嫌気性汚水処理槽内で
嫌気性微生物によって汚水を浄化し、汚泥を沈殿堆積さ
せることで、処理された汚水と汚泥とを沈殿分離させる
方式の汚水処理装置において、嫌気性汚水処理槽内の下
部位置に散気装置が配設され、該散気装置からは嫌気性
微生物を不活性状態にしない程度の汚水攪拌用エアーが
供給されることを特徴とする嫌気性汚水処理装置。4. allowed to flow into the water to be treated of domestic wastewater such as the one anaerobic sewage treatment tank, purifies sewage by anaerobic microorganisms in the one anaerobic sewage treatment tank, is precipitated deposited sludge
By causing, in the sewage treatment apparatus <br/> schemes make precipitate separating the treated wastewater and sludge, an air diffuser is disposed below the position of anaerobic sewage treatment tank, from dissipating degasifier An anaerobic sewage treatment apparatus characterized in that sewage stirring air is supplied to such an extent that anaerobic microorganisms are not inactivated.
特徴とする請求項4記載の嫌気性汚水処理装置。5. The anaerobic sewage treatment apparatus according to claim 4, wherein the air is supplied intermittently.
0.5〜10g/m3分であることを特徴とする請求項
5記載の嫌気性汚水処理装置。6. The anaerobic sewage treatment apparatus according to claim 5, wherein the amount of air when supplying air is 0.5 to 10 g / m 3 minutes in terms of oxygen amount.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16169194A JP3146275B2 (en) | 1994-06-08 | 1994-06-08 | Anaerobic wastewater treatment method and apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16169194A JP3146275B2 (en) | 1994-06-08 | 1994-06-08 | Anaerobic wastewater treatment method and apparatus |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH07328688A JPH07328688A (en) | 1995-12-19 |
JP3146275B2 true JP3146275B2 (en) | 2001-03-12 |
Family
ID=15740034
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP16169194A Expired - Fee Related JP3146275B2 (en) | 1994-06-08 | 1994-06-08 | Anaerobic wastewater treatment method and apparatus |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3146275B2 (en) |
-
1994
- 1994-06-08 JP JP16169194A patent/JP3146275B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH07328688A (en) | 1995-12-19 |
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