JP3369915B2 - Night soil treatment equipment - Google Patents
Night soil treatment equipmentInfo
- Publication number
- JP3369915B2 JP3369915B2 JP20855397A JP20855397A JP3369915B2 JP 3369915 B2 JP3369915 B2 JP 3369915B2 JP 20855397 A JP20855397 A JP 20855397A JP 20855397 A JP20855397 A JP 20855397A JP 3369915 B2 JP3369915 B2 JP 3369915B2
- Authority
- JP
- Japan
- Prior art keywords
- sludge
- silica
- treatment
- wastewater
- reaction
- 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 - Lifetime
Links
Classifications
-
- 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
Landscapes
- Activated Sludge Processes (AREA)
- Purification Treatments By Anaerobic Or Anaerobic And Aerobic Bacteria Or Animals (AREA)
Description
【発明の詳細な説明】Detailed Description of the Invention
【0001】[0001]
【発明の属する技術分野】本発明は、浄化槽汚泥の安定
化、生し尿中の有機物、特に高分子有機物の分解を向上
させ、悪臭を発生させず、固液分離性を向上させること
ができ、しかも固液分離性を向上させることにより、沈
降分離が向上し、結果的に脱水すべき汚泥量を減少させ
ることができるし尿処理装置に関する。TECHNICAL FIELD The present invention can stabilize the septic tank sludge, improve the decomposition of organic matter in raw urine, particularly high molecular weight organic matter, do not generate a bad odor, and improve solid-liquid separation, Moreover, the present invention relates to a urine treatment apparatus in which sedimentation separation is improved by improving solid-liquid separability, and consequently the amount of sludge to be dehydrated can be reduced.
【0002】[0002]
【従来の技術】し尿処理施設は、従来、高濃度のし尿汚
濁物を高レベルに処理することを目的として複雑な工程
を経て処理を完成させなければならない状況であった。2. Description of the Related Art Conventionally, human waste treatment facilities have been required to complete treatment through complicated steps for the purpose of treating high concentration human waste pollutants at high levels.
【0003】しかし、近年、都市遠方地域においても都
市化の波により、家庭トイレの水洗化のために、汲み取
りし尿(生し尿)の量が急速に減少し、それに変わって
農業用集落廃水処理施設を代表とする合併浄化槽汚泥の
量が急増している。In recent years, however, the amount of pumped urine (live urine) has rapidly decreased due to the irrigation of household toilets due to the wave of urbanization even in distant areas of the city, and instead it has become an agricultural settlement wastewater treatment facility. The amount of sludge from the combined septic tank represented by is rapidly increasing.
【0004】し尿処理施設の役割は、生し尿と浄化槽汚
泥を処理することが課せられており、この変化状況に対
応した簡素化した工程での処理方式が求められている。The role of the human waste treatment facility is required to treat raw urine and septic tank sludge, and a treatment method in a simplified process corresponding to the changing situation is required.
【0005】合併浄化槽汚泥は生物廃水処理の余剰汚泥
であり、し尿処理場の余剰汚泥の処理と併せて処理する
ことで設備の簡素化が期待できる。The combined septic tank sludge is an excess sludge for biological wastewater treatment, and simplification of equipment can be expected by treating it together with the treatment of excess sludge at a night soil treatment plant.
【0006】しかるに、浄化槽汚泥は、性状が安定して
いないという特性、汚水処理方法によって生物の優先種
が異なり、従って余剰汚泥の性状が異なるという特性、
あるいは場合によっては菌体に対する毒性物質が含まれ
たり、重金属濃度が高かったりする特性がある。[0006] However, septic tank sludge has a characteristic that its properties are not stable, and that the characteristics of the surplus sludge differ according to the priority species of organisms depending on the wastewater treatment method,
Alternatively, depending on the case, there is a characteristic that a toxic substance to bacterial cells is contained or the concentration of heavy metals is high.
【0007】従来、し尿処理施設の簡素化手段として、
浄化槽汚泥をし尿処理の余剰汚泥と生し尿を混合して凝
集脱水する方法が提案されている(特公平7−4598
号公報参照)。[0007] Conventionally, as a means for simplifying human waste treatment facilities,
A method has been proposed in which septic tank sludge is mixed with excess sewage treated sludge and raw urine to coagulate and dehydrate (Japanese Patent Publication No. 7-4598).
(See the official gazette).
【0008】[0008]
【発明が解決しようとする課題】しかし、特公平7−4
598号公報に記載の方法では、余剰汚泥も含めて全量
脱水しているが、かかる全量脱水を行うと、設備が過大
になる問題がある。即ち、脱水作業は無人化することは
困難であり、かかる困難さから昼間の作業だけで脱水作
業を終了しようとすると必然的に脱水設備を過大にしな
ければならないからである。また上記のように全量脱水
すれば必然的に脱水ケーキの量が増大し、その処理が問
題になる。更に浄化槽汚泥の性状変化に対応するために
は負荷の最大限を考慮して高分子脱水助剤の添加量を過
剰ぎみに添加しなければならない問題がある。更に又脱
水汚泥は過剰な高分子脱水助剤と生し尿の有機物(特に
高分子有機物であるタンパク質、デンプン、脂質等)が
多量に含まれ、空気のない所では腐敗化が進行し、悪臭
を発生しやすい問題がある。更に近年し尿処理場からの
余剰汚泥は環境汚染を防止する観点から焼却処理するこ
とを禁止する指導がなされており、悪臭を発生する余剰
汚泥は処置が更に困難となる。[Problems to be Solved by the Invention] However, Japanese Patent Publication No. 7-4
According to the method described in Japanese Patent No. 598, the entire amount including the excess sludge is dehydrated. However, if the total amount of dehydration is performed, there is a problem that the equipment becomes excessively large. That is, it is difficult to make the dehydration work unmanned, and because of such difficulty, if the dehydration work is to be completed only by the daytime work, the dehydration equipment must be oversized. In addition, if the entire amount is dehydrated as described above, the amount of the dehydrated cake inevitably increases, and its treatment becomes a problem. Further, in order to cope with the change in the properties of the septic tank sludge, there is a problem that the amount of the polymeric dehydration auxiliary agent must be excessively added in consideration of the maximum load. Furthermore, dehydrated sludge contains a large amount of high molecular weight dehydration aid and raw urine organic matter (especially high molecular weight organic matter such as proteins, starch, lipids, etc.). There is a problem that tends to occur. Furthermore, in recent years, it has been instructed to prohibit incineration of excess sludge from the human waste treatment plant from the viewpoint of preventing environmental pollution, and it becomes more difficult to treat excess sludge that produces a foul odor.
【0009】そこで、本発明は、浄化槽汚泥の安定化、
生し尿中の有機物、特に高分子有機物の分解を向上さ
せ、悪臭を発生させず、固液分離性を向上させることが
できるし尿処理装置を提供することを課題とする。Therefore, the present invention provides stabilization of septic tank sludge,
An object of the present invention is to provide a human waste treatment device that can improve the decomposition of organic matter, particularly high molecular weight organic matter, in raw urine, generate no offensive odor, and improve solid-liquid separation.
【0010】また、本発明は、固液分離性を向上させる
ことにより、沈降分離が向上し、結果的に脱水すべき汚
泥量を減少させることができるし尿処理装置を提供する
ことを課題とする。It is another object of the present invention to provide a human waste treatment device which improves solid-liquid separability, thereby improving sedimentation separation and consequently reducing the amount of sludge to be dehydrated. .
【0011】更に、本発明は、汚泥性状が安定化し、高
分子脱水助剤の添加量を減少させることができるし尿処
理装置を提供することを課題とする。A further object of the present invention is to provide a waste urine treatment apparatus in which sludge properties are stabilized and the amount of the polymeric dehydration aid added can be reduced.
【0012】更に又、本発明は、有機物が分解され、脱
水汚泥の堆肥化処理等の焼却に変わる処理がしやすくな
るし尿処理装置を提供することを課題とする。Still another object of the present invention is to provide a human waste treatment device in which organic matter is decomposed and a process such as composting process of dehydrated sludge, which is easy to perform incineration, is facilitated.
【0013】[0013]
【課題を解決するための手段】上記課題を解決する本発
明に係るし尿廃水の処理装置は、少なくとも生し尿と浄
化槽汚泥を含むし尿廃水を導入して脱リン剤を含む添加
剤を添加混合する添加部と、該添加部で添加剤が添加混
合されたし尿廃水を導入して酸化処理する前反応手段
と、該前反応手段で処理された廃水を上澄み液と汚泥に
重力式固液分離を行う汚泥沈降槽と、該汚泥沈降槽で分
離された汚泥を脱水する脱水手段と、前記汚泥沈降槽で
分離された上澄み液を導入して硝化脱窒処理する反応手
段と、該反応手段から送られる懸濁液を汚泥と処理液に
固液分離する固液分離手段とを有し、且つ前記反応手段
内で発生する余剰汚泥を前記添加部あるいはその前工程
に返送する返送手段を有することを特徴とする。In the treatment apparatus for human waste water according to the present invention, which solves the above-mentioned problems, human waste water containing at least raw urine and septic tank sludge is introduced and an additive containing a dephosphorizing agent is added and mixed. An addition section, a pre-reaction means for introducing and mixing the waste urine wastewater to which the additive has been added and mixed in the addition section, and an oxidation treatment, and the waste water treated by the pre-reaction means in a supernatant and sludge.
A sludge settling tank for performing gravity-type solid-liquid separation, a dehydrating means for dewatering the sludge separated in the sludge settling tank, and a reaction means for introducing the supernatant liquid separated in the sludge settling tank to perform nitrification denitrification treatment. Having a solid-liquid separation means for solid-liquid separating the suspension sent from the reaction means into a sludge and a treatment liquid, and returning excess sludge generated in the reaction means to the addition section or its preceding step It is characterized by having a returning means.
【0014】[0014]
【0015】本発明の好ましい態様としては、固液分離
手段が膜分離手段であり、該膜分離手段後に、脱色のた
めの活性炭処理手段を有することである。In a preferred aspect of the present invention, the solid-liquid separation means is a membrane separation means, and the membrane separation means has an activated carbon treatment means for decolorization.
【0016】また本発明の他の好ましい態様としては、
添加部において、脱リン剤と共にシリカ成分を含む添加
剤を添加することである。As another preferred embodiment of the present invention,
In the addition section, an additive containing a silica component is added together with the dephosphorizing agent.
【0017】より好ましい態様としては、前記シリカ成
分を含む添加剤が、シリカ成分とマグネシウム成分を含
む無機塩の溶解液であることであり、前記シリカ成分を
含む添加剤が、シリカの複合結晶鉱物・非結晶鉱物から
なるシリカ系原料から得られるシリカ系凝集液であるこ
とであり、前記シリカ成分を含む添加剤が、腐植物を主
体とする土壌成形体であることである。In a more preferred aspect, the additive containing the silica component is a solution of an inorganic salt containing the silica component and the magnesium component, and the additive containing the silica component is a composite crystal mineral of silica. It is a silica-based coagulating liquid obtained from a silica-based raw material composed of an amorphous mineral, and the additive containing the silica component is a soil compact mainly composed of humus.
【0018】[0018]
【0019】[0019]
【0020】[0020]
【発明の実施の形態】以下、図面に基づいて本発明の実
施の形態を説明する。BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.
【0021】本発明の処理対象となるし尿廃水は、少な
くとも生し尿と浄化槽汚泥を含み、浄化槽汚泥には合併
浄化槽汚泥を含むことができる。また本発明において、
浄化槽汚泥又は生し尿からなるし尿廃水には雑廃水等を
含むことができる。The human waste wastewater to be treated in the present invention contains at least raw urine and septic tank sludge, and the septic tank sludge can contain combined septic tank sludge. In the present invention,
The human waste wastewater consisting of septic tank sludge or live urine may include miscellaneous wastewater.
【0022】図1は本発明の実施の形態の一例を示すブ
ロック図であり、図2は本発明の実施の形態の他の例を
示すブロック図である。FIG. 1 is a block diagram showing an example of an embodiment of the present invention, and FIG. 2 is a block diagram showing another example of an embodiment of the present invention.
【0023】図1及び図2には生し尿と浄化槽汚泥の両
方を受け入れる例が示されており、同図において、1は
浄化槽汚泥を導入して夾雑物を除去する第1前処理手段
であり、2は生し尿を導入して夾雑物を除去する第2前
処理手段である。FIGS. 1 and 2 show an example in which both raw urine and septic tank sludge are received. In FIG. 1, 1 is a first pretreatment means for introducing septic tank sludge to remove impurities. Reference numeral 2 is a second pretreatment means for introducing live urine to remove impurities.
【0024】第1及び第2前処理手段1、2は、砂、
石、紙、繊維、ゴム製品、髪の毛、その他ゴミ等の夾雑
物を除去する手段であり、その構成は限定されない。The first and second pretreatment means 1 and 2 are sand,
It is a means for removing contaminants such as stones, paper, fibers, rubber products, hair, and other dust, and its configuration is not limited.
【0025】第1及び第2前処理手段1、2は別々に設
けてもよいが、1つを共用することもできる。The first and second pretreatment means 1 and 2 may be provided separately, but one may be shared.
【0026】3は添加剤の添加部であり、4は脱リン剤
の添加設備であり、5はシリカ成分を含む添加剤の添加
設備である。Reference numeral 3 is an additive addition section, 4 is a dephosphorization addition equipment, and 5 is an addition equipment of an additive containing a silica component.
【0027】脱リン剤としては、ポリ塩化鉄(ポリ
鉄)、塩化第2鉄等が挙げられる。Examples of the dephosphorizing agent include polyiron chloride (polyiron) and ferric chloride.
【0028】またシリカ成分を含む添加剤としては、第
1に、シリカ成分とマグネシウム成分を含む無機塩の溶
解液を用いることができる。例えば珪酸塩とマグネシウ
ム塩の混合溶液を用いることもできる。As the additive containing a silica component, first, a solution of an inorganic salt containing a silica component and a magnesium component can be used. For example, a mixed solution of silicate and magnesium salt can be used.
【0029】またシリカ成分を含む添加剤としては、第
2に、シリカの複合結晶鉱物・非結晶鉱物からなるシリ
カ系原料から得られるシリカ系凝集液を用いることも好
ましい。かかるシリカ系凝集液は、高炉スラグ等を還元
酸あるいは中性酸、好ましくは希硫酸に溶解する方法が
ある。溶解方法の具体例としては、特許第255859
1号に記載の方法が挙げられる。またシリカ成分を含む
添加剤として、シリカ成分を含む結晶鉱物である例えば
商品名「フヨーミネラル」等を用いることもできる。Secondly, as an additive containing a silica component, it is also preferable to use a silica-based coagulating liquid obtained from a silica-based raw material composed of a silica composite crystal mineral / amorphous mineral. The silica-based coagulating liquid may be prepared by dissolving blast furnace slag or the like in a reducing acid or a neutral acid, preferably dilute sulfuric acid. As a specific example of the dissolution method, Japanese Patent No. 255859
The method described in No. 1 is mentioned. Further, as the additive containing a silica component, a crystal mineral containing a silica component, for example, trade name “Fuyomineral” can be used.
【0030】更にシリカ成分を含む添加剤としては、第
3に、腐植物を主体とする土壌成形体を用いることもで
きる。Thirdly, as the additive containing a silica component, a soil compact mainly composed of humus can be used.
【0031】シリカ成分を含む添加剤の添加量は、生し
尿、浄化槽汚泥及び余剰汚泥の混合液に対してシリカと
して1.0〜200mg/lの範囲が好ましい。The addition amount of the additive containing the silica component is preferably in the range of 1.0 to 200 mg / l as silica with respect to the mixed liquid of raw urine, septic tank sludge and excess sludge.
【0032】シリカ成分を含む添加剤には、シリカ(Si
O2)、カルシウム、マグネシウム、アルミニウムを主成
分として含み、これらの成分は生し尿や浄化槽汚泥等の
凝集や有用細菌の優先化に寄与する。Additives containing a silica component include silica (Si
O 2 ), calcium, magnesium, and aluminum are contained as main components, and these components contribute to aggregation of raw urine and septic tank sludge, and prioritization of useful bacteria.
【0033】本発明において、6は前反応手段であり、
該前反応手段6は添加剤が添加混合されたし尿廃水を後
段の生物処理(硝化脱窒処理)に先がけて反応処理する
ものであり、具体的には、前反応によってし尿廃水中に
含まれる有機物を酸化分解して液粘性を低下し、固液分
離性を向上させる。また前反応によって高分子有機物を
酸化分解して悪臭を抑制する。更に前反応によって好気
性菌又は通性嫌気性菌の1種又は2種以上が優先種を占
める環境にし、浄化槽汚泥の嫌気化を抑制し、性状を安
定化させる。In the present invention, 6 is a pre-reaction means,
The pre-reaction means 6 is for reacting the waste urine wastewater to which the additives have been added and mixed prior to the subsequent biological treatment (nitrification denitrification treatment). Specifically, it is contained in the waste urine wastewater by the pre-reaction. Oxidative decomposition of organic substances reduces liquid viscosity and improves solid-liquid separation. In addition, the high-molecular organic matter is oxidatively decomposed by the pre-reaction to suppress the malodor. Further, by pre-reaction, one or more aerobic or facultative anaerobic bacteria occupy the preferential species to suppress the anaerobicization of the septic tank sludge and stabilize the properties.
【0034】かかる酸化処理を実施する前反応手段とし
ては、図3に示すように、前反応槽601を設け、該前反
応槽601 から循環ポンプ 602でし尿廃水を外部に引き抜
き、再度該前反応槽 601に戻す過程にエアーミキシング
部 603を設けることにより、循環ライン中にエアーを混
入し、前反応槽内のし尿廃水中にエアーを混入する方法
が好ましい例として挙げられる。As a pre-reaction means for carrying out such an oxidation treatment, as shown in FIG. 3, a pre-reaction tank 601 is provided, and urine wastewater is drawn out from the pre-reaction tank 601 by a circulation pump 602 to the outside of the pre-reaction again. A preferable example is a method in which an air mixing unit 603 is provided in the process of returning to the tank 601 to mix air into the circulation line and mix air into the human waste wastewater in the previous reaction tank.
【0035】また図示しないが、前反応槽内に散気管を
設け、該散気管にエアーを供給し、前反応槽内のし尿廃
水中にエアーを混入する方法も好ましい。Although not shown, a method is also preferable in which an air diffuser is provided in the pre-reaction tank, air is supplied to the air diffuser, and air is mixed into the waste effluent in the pre-reaction tank.
【0036】本発明において、添加剤として脱リン剤が
用いられているが、かかる脱リン剤として通常用いられ
るポリ鉄を用いた場合、添加部を経て前反応手段を経ず
して汚泥の分離を行なおうとすると、還元性雰囲気での
反応になり、ポリ鉄が凝集剤として機能しない問題があ
る。即ち、空気の供給をしなければ勢い還元性雰囲気に
なり、また還元性雰囲気では鉄が有機物と錯体を作りや
すく、リン酸鉄を形成しない。In the present invention, a dephosphorizing agent is used as an additive. When polyiron, which is usually used as such a dephosphorizing agent, is used, sludge is separated without passing through the pre-reaction means through the addition part. However, there is a problem in that the polyiron does not function as a coagulant due to the reaction in a reducing atmosphere. That is, if air is not supplied, the atmosphere becomes a vigorous reducing atmosphere. In the reducing atmosphere, iron easily forms a complex with an organic substance and does not form iron phosphate.
【0037】これに対し、前反応処理を行えば、酸化状
態になり、有機物を酸化分解するため鉄錯体を形成せ
ず、従ってポリ鉄が凝集剤として機能し、脱リンの効果
がより向上する。また本発明では、硝化脱窒後の脱リン
を別個に設けるのと比べ設備コストが大幅に軽減され
る。On the other hand, if the pre-reaction treatment is carried out, it becomes in an oxidized state and does not oxidize and decompose organic matter to form an iron complex. Therefore, polyiron functions as an aggregating agent and the effect of dephosphorization is further improved. . Further, in the present invention, the equipment cost is significantly reduced as compared with the case where dephosphorization after nitrification denitrification is separately provided.
【0038】更に添加剤として、上述したシリカ成分を
含む添加剤を用いた場合には、前反応槽内で、通性嫌気
性の有用細菌(具体的にはバチルス属菌)が優先種を占
めるようになり、嫌気性菌や腐敗菌の生存が困難にな
る。従って浄化槽汚泥のような嫌気性の強い汚泥であっ
ても、通性嫌気性の有用細菌が優先種を占めることによ
って性状が安定化する。上記の有用細菌は高分子有機物
(タンパク質、デンプン、脂質等)の分解性に優れるた
め、嫌気化方向に反応は進まないので、前記の嫌気性菌
や腐敗菌の生存が困難になることとも相まって腐敗臭を
防止できる。Further, when the above-mentioned additive containing the silica component is used as an additive, a facultatively anaerobic useful bacterium (specifically, Bacillus genus) occupies a priority species in the pre-reaction tank. This makes it difficult for anaerobic bacteria and spoilage bacteria to survive. Therefore, even in sludge with strong anaerobic property such as septic tank sludge, the properties are stabilized by facultative anaerobic useful bacteria occupying the priority species. Since the above-mentioned useful bacteria are excellent in degradability of high molecular weight organic substances (proteins, starch, lipids, etc.), the reaction does not proceed in the anaerobic direction, which makes it difficult to survive the anaerobic bacteria and spoilage bacteria. It can prevent spoilage.
【0039】本発明において、前反応槽の槽容量は、し
尿廃水を連続的に導入した場合の水量(本発明におい
て、水量は生し尿と浄化槽汚泥からなるし尿廃水と余剰
汚泥の混合液の水量を意味する)に対する滞留時間が1
日以上3日以内の容量とすることが好ましい。1日以上
あればし尿廃水の負荷変動を抑えるにみならず、し尿廃
水中に含まれる菌体類が通性嫌気性又は酸化処理の菌体
の1種又は2種以上が優先種を占める環境を作ってやる
ことができるからである。あまり容量を大きくし過ぎる
とコスト増を招くので3日以内、好ましくは2日以内で
ある。In the present invention, the tank capacity of the pre-reaction tank is the amount of water in the case of continuously introducing human waste water (in the present invention, the amount of water is the amount of the mixed liquid of human waste waste water and excess sludge consisting of raw urine and septic tank sludge). 1)
It is preferable to set the capacity to 3 days or more and 3 days or less. An environment where one or more bacterial cells contained in human waste wastewater are facultative anaerobic or oxidatively treated, and the priority species is the one in which human urine wastewater load fluctuations are suppressed if it is more than one day. Because you can make. It is within 3 days, preferably within 2 days, because too large a capacity causes an increase in cost.
【0040】前反応後、図1の例では上澄み液と汚泥に
固液分離する汚泥沈降槽7と、該汚泥沈降槽7で分離さ
れた汚泥を脱水する脱水手段8とを有している。After the pre-reaction, the example of FIG. 1 has a sludge settling tank 7 for solid-liquid separation into a supernatant and sludge, and a dehydrating means 8 for dehydrating the sludge separated in the sludge settling tank 7.
【0041】汚泥沈降槽7としては、通常の重力沈降式
の沈降槽を用いることができる。本発明においては、汚
泥の固液分離性が向上しているため、汚泥沈降槽7にお
いて、上澄み液と汚泥にきれいに分離される。従って、
脱水手段8において脱水すべき汚泥量が結果的に減少す
る。As the sludge settling tank 7, an ordinary gravity settling settling tank can be used. In the present invention, since the solid-liquid separation property of sludge is improved, the sludge settling tank 7 cleanly separates the supernatant liquid and the sludge. Therefore,
As a result, the amount of sludge to be dehydrated by the dehydrating means 8 is reduced.
【0042】また脱水手段8においては、高分子脱水助
剤が用いられるが、汚泥性状が安定化すると、高分子脱
水助剤の添加量を減少できる効果がある。A high molecular weight dehydration aid is used in the dehydrating means 8. However, when the sludge properties are stabilized, the amount of the high molecular weight dehydration aid added can be reduced.
【0043】更に脱水された汚泥(ケーキ)は、有機物
が分解され、しかも有用細菌が優先的に存在する汚泥で
あるため、腐敗菌が生息し得ない環境にあり、従って、
脱水汚泥の堆肥化処理等が容易に行え、焼却に変わる処
理がしやすくなる効果がある。The sludge (cake) that has been further dehydrated is a sludge in which organic matter is decomposed and useful bacteria are preferentially present, so that it is in an environment where spoilage bacteria cannot live, and therefore,
The dehydrated sludge can be easily composted, and it has the effect of facilitating the process of incineration.
【0044】更に又、本発明では、後述の反応手段内で
発生する余剰汚泥を前記添加部3あるいはその前工程に
返送する返送手段8Aを有しているため、余剰汚泥の脱
水と前処理で発生する混入浄化槽汚泥の脱水を同時に行
え、脱水設備のコストを低減できる効果がある。Furthermore, since the present invention has the returning means 8A for returning the excess sludge generated in the reaction means which will be described later to the addition section 3 or the preceding step thereof, the excess sludge can be dehydrated and pretreated. The generated septic tank sludge can be dehydrated at the same time, and the cost of the dehydration equipment can be reduced.
【0045】なお脱水手段で分離された分離液は生物反
応手段9に返送され再処理される。次に図2の例では、
前反応手段6で処理された廃水を直接脱水する脱水手段
8が設けられている。The separated liquid separated by the dehydrating means is returned to the biological reaction means 9 for reprocessing. Next, in the example of FIG.
A dehydrating means 8 for directly dehydrating the wastewater treated by the pre-reaction means 6 is provided.
【0046】このような直接脱水を行うことができる汚
泥は、固液分離性が非常に向上した汚泥であり、かかる
直接脱水は脱水機にかかる負荷は図1の例に比べ増大す
る難点はあるが、汚泥沈降槽を設けない分設備コストが
低減する効果がある。またこの方法でも、余剰汚泥の脱
水と前処理で発生する混入浄化槽汚泥の脱水を同時に行
え、従来に比べれば脱水設備のコストを低減できる。The sludge capable of performing such direct dehydration is a sludge having an extremely improved solid-liquid separation property, and such direct dehydration has a drawback that the load on the dehydrator is increased as compared with the example of FIG. However, there is an effect that the facility cost is reduced because the sludge settling tank is not provided. Also with this method, dehydration of the excess sludge and dehydration of the mixed septic tank sludge generated in the pretreatment can be performed at the same time, and the cost of the dehydration equipment can be reduced as compared with the conventional method.
【0047】前述の汚泥沈降槽7(図1)や脱水手段8
(図2)に後続する反応手段9は主として硝化脱窒処理
槽によって構成され、硝化脱窒処理槽の構成は特に限定
されない。The aforementioned sludge settling tank 7 (FIG. 1) and dewatering means 8
The reaction means 9 following (FIG. 2) is mainly composed of a nitrification denitrification treatment tank, and the structure of the nitrification denitrification treatment tank is not particularly limited.
【0048】本発明においては、前述の前反応手段6の
存在によって、有機物の酸化分解が促進されることによ
り、硝化脱窒処理槽において有機物負荷が軽減され、粘
性の上昇を招くことはなく、安定した処理が可能とな
る。In the present invention, the presence of the above-mentioned pre-reaction means 6 accelerates the oxidative decomposition of the organic matter, so that the load of the organic matter is reduced in the nitrification / denitrification treatment tank and the viscosity is not increased. Stable processing becomes possible.
【0049】またシリカ成分を含む添加剤を用いた場合
には、その生物相が有用微生物あるいは有用細菌が優先
種を占めるように処理系が形成されるため、硝化脱窒処
理槽においても有用細菌が優先種を占めるようになり、
生物相が安定し、安定した処理が可能となる。Further, when an additive containing a silica component is used, a treatment system is formed so that the biota of the useful microorganism or the useful bacterium occupy the priority species, so that the useful bacterium is also used in the nitrification denitrification treatment tank. Became a priority species,
The biota is stable and stable treatment is possible.
【0050】10は固液分離手段であり、固液分離手段
としては、重力沈降式の沈澱槽や膜分離手段を採用する
ことができ、処理液の性状の要求によって選択すればよ
い。本例では膜分離手段を採用する場合について説明す
る。Reference numeral 10 denotes a solid-liquid separation means. As the solid-liquid separation means, a gravity sedimentation type precipitation tank or a membrane separation means can be adopted, and it may be selected according to the characteristics of the treatment liquid. In this example, the case where the membrane separation means is adopted will be described.
【0051】膜分離手段は、生物反応手段9から送られ
る懸濁液(活性汚泥)を固液分離する手段であるが、前
述のように硝化脱窒処理槽の処理が安定したことによ
り、膜の目詰まりも減少し、洗浄による膜フラックスの
回復効果も安定し、膜処理の安定化を図ることが可能と
なる。The membrane separation means is a means for solid-liquid separation of the suspension (activated sludge) sent from the biological reaction means 9, but as described above, the treatment in the nitrification denitrification tank is stable, Clogging is also reduced, the recovery effect of the membrane flux by cleaning is stabilized, and it is possible to stabilize the membrane treatment.
【0052】膜分離手段に用いられる膜の種類は、限外
濾過膜、精密濾過膜、逆浸透膜等のいずれでもよく、そ
の使用方法は槽内設置式(いわゆる液中膜式等)でも槽
外設置式でもよい。また膜の形式は平膜や管状等のいず
れでもよい。The type of membrane used for the membrane separating means may be any of ultrafiltration membranes, microfiltration membranes, reverse osmosis membranes and the like, and the method of use thereof may be a type installed in a tank (so-called submerged membrane type) or a tank. It may be installed outside. The form of the membrane may be either flat membrane or tubular.
【0053】膜分離手段により活性汚泥は透過液と濃縮
汚泥に分離されるが、濃縮汚泥は反応手段9に返送さ
れ、その一部は余剰汚泥として前述のように前記添加部
3あるいはその前工程に返送される。The activated sludge is separated into the permeate and the concentrated sludge by the membrane separation means, but the concentrated sludge is returned to the reaction means 9, and a part of it is excess sludge as described above in the addition section 3 or the preceding step thereof. Will be returned to.
【0054】膜分離手段により分離された透過液は、更
に必要により高度処理される。例えば図示のような活性
炭処理手段11において主として脱色処理され、処理水
は再利用されるか又は放流される。The permeate separated by the membrane separating means is further highly treated if necessary. For example, the decolorization treatment is mainly performed in the activated carbon treatment means 11 as shown in the figure, and the treated water is reused or discharged.
【0055】[0055]
【実施例】本発明の実施例について説明する。かかる実
施例によって本発明が限定されるものではない。EXAMPLES Examples of the present invention will be described. The present invention is not limited to the embodiments.
【0056】実施例1
図1に示す処理装置を用いて、前処理された浄化槽汚泥
と生し尿とからなるし尿廃水に対し、生物処理の余剰汚
泥を混合して、添加部に導入した。Example 1 Using the treatment apparatus shown in FIG. 1, surplus sludge for biological treatment was mixed with the waste sewage wastewater consisting of pretreated septic tank sludge and raw urine, and introduced into the addition section.
【0057】浄化槽汚泥と生し尿と余剰汚泥の混合液中
の各々の容積比は浄化槽汚泥:生し尿:余剰汚泥=6:
3:1であった。The respective volume ratios in the mixed liquid of septic tank sludge, raw urine, and excess sludge are as follows: septic tank sludge: raw urine: excess sludge = 6:
It was 3: 1.
【0058】添加部に導入した混合液の性状は以下の通
りであった。なお、分析法はJISK 0102に従っ
た。The properties of the mixed solution introduced into the addition section were as follows. The analysis method was in accordance with JISK0102.
【0059】pH 7.96 BOD 3,050ppm COD 2,300ppm T−P 150ppm SS 2,930ppmPH 7.96 BOD 3,050ppm COD 2,300ppm TP 150ppm SS 2,930ppm
【0060】添加部で添加された添加剤はポリ鉄とシリ
カ系添加剤とした。The additives added in the addition section were polyiron and silica-based additives.
【0061】本実施例では以下の組成のシリカ系添加剤
を用いた。
SiO2 10,000〜12,000ppm
Al2O3 1,600〜2,600ppm
CaO 600〜1,000ppm
MgO 600〜1,200ppmIn this example, a silica-based additive having the following composition was used. SiO 2 10,000 to 12,000ppm Al 2 O 3 1,600 to 2,600ppm CaO 600 to 1,000ppm MgO 600 to 1,200ppm
【0062】但し、上記添加剤中の溶解シリカ中のモノ
マーシリカは80%以上占めていた。ポリ鉄の添加量とシ
リカ系添加剤の添加量は、以下のようにした。
ポリ鉄の添加量:混合液に対して1%(液として)
シリカ系添加剤の添加量:混合液に対してシリカとして
は100mg/l である。However, monomer silica in the dissolved silica in the above additives accounted for 80% or more. The amount of polyiron added and the amount of silica-based additive added were as follows. Addition amount of polyiron: 1% with respect to the mixed liquid (as liquid) Addition amount of silica-based additive: 100 mg / l of silica with respect to the mixed liquid.
【0063】前反応槽の容量は混合液の合計量に対して
2日滞留容量とした。The capacity of the pre-reaction tank was set to a two-day retention capacity with respect to the total amount of the mixed solution.
【0064】以上の条件の下で、前反応槽を設置した場
合と、設置しない場合の実験を行った。Under the above conditions, experiments were carried out with and without the pre-reaction tank.
【0065】各々の場合について、汚泥沈降槽の上澄み
液の分析をして、処理効果を比較した。また汚泥沈降槽
での汚泥の沈降性について比較するために、SV360 、SV
1200、SV2880を調べた。
実験結果
────────────────────────────────────
前反応槽を設置した場合 前反応槽を設置しない場合
────────────────────────────────────
pH 7.3 8.01
BOD 370ppm 2,860ppm
COD 490ppm 2,220ppm
T−P 14ppm 20ppm
SS 810ppm 2,450ppm
SV360 56 99
SV1200 50 97
SV2880 45 94
────────────────────────────────────In each case, the supernatant of the sludge settling tank was analyzed to compare the treatment effects. In order to compare the sludge settability in the sludge settling tank, SV 360 , SV
1200 , SV 2880 was examined. Experimental results ──────────────────────────────────── When the pre-reaction tank is installed If not ──────────────────────────────────── pH 7.3 8.01 BOD 370ppm 2,860ppm COD 490ppm 2,220ppm T -P 14ppm 20ppm SS 810ppm 2,450ppm SV 360 56 99 SV 1200 50 97 SV 2880 45 94 ──────────────────────────────── ──────
【0066】以上の結果から、汚泥の沈降性が大幅に改
良されていることがわかる。またBODやCODの値が
大幅に減少しているが、これはBODやCODが分解さ
れたためで、その結果液粘性も減少していることが確認
された。From the above results, it can be seen that the sludge settling property is greatly improved. Further, the values of BOD and COD were significantly reduced, but this was due to the decomposition of BOD and COD, and as a result, it was confirmed that the liquid viscosity was also reduced.
【0067】[0067]
【発明の効果】以上の如く、本発明によれば、浄化槽汚
泥の安定化、生し尿中の有機物、特に高分子有機物の分
解を向上させ、悪臭を発生させず、固液分離性を向上さ
せることができるし尿処理装置を提供することができ
る。As described above, according to the present invention, stabilization of septic tank sludge, improvement of decomposition of organic matter in raw urine, particularly high molecular weight organic matter, generation of offensive odor, and improvement of solid-liquid separation are achieved. It is possible to provide a human waste treatment device.
【0068】また、本発明によれば、固液分離性を向上
させることにより、沈降分離が向上し、結果的に脱水す
べき汚泥量を減少させることができるし尿処理装置を提
供することができる。Further, according to the present invention, by improving the solid-liquid separation property, sedimentation separation is improved, and as a result, the amount of sludge to be dehydrated can be reduced, and a human waste treatment device can be provided. .
【0069】更に、本発明によれば、汚泥性状が安定化
し、高分子脱水助剤の添加量を減少させることができる
し尿処理装置を提供することができる。Further, according to the present invention, it is possible to provide a human waste treatment device in which sludge properties are stabilized and the amount of the polymeric dehydration aid added can be reduced.
【0070】更に又、本発明によれば、有機物が分解さ
れ、脱水汚泥の堆肥化処理等の焼却に変わる処理がしや
すくなるし尿処理装置を提供することができる。Furthermore, according to the present invention, it is possible to provide a human waste treatment device in which organic matter is decomposed and a process such as a composting process of dehydrated sludge, which is easy to perform incineration, is facilitated.
【図1】本発明の実施の形態の一例を示すブロック図FIG. 1 is a block diagram showing an example of an embodiment of the present invention.
【図2】本発明の実施の形態の他の例を示すブロック図FIG. 2 is a block diagram showing another example of the embodiment of the present invention.
【図3】前反応槽の一例を示す説明図FIG. 3 is an explanatory view showing an example of a pre-reaction tank.
1:第1前処理手段 2:第2前処理手段 3:添加部 4:脱リン剤の添加剤添加設備 5:シリカ成分を含む添加剤の添加設備 6:前反応手段 7:汚泥沈降槽 8:脱水手段 9:反応手段 10:固液分離手段 11:活性炭処理手段 1: First pretreatment means 2: Second pretreatment means 3: Addition department 4: Addition equipment for dephosphorizing agent 5: Addition equipment for additives containing silica component 6: Pre-reaction means 7: Sludge settling tank 8: Dehydration means 9: Reaction means 10: Solid-liquid separation means 11: Activated carbon treatment means
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平9−108692(JP,A) 特開 昭63−28500(JP,A) 特開 昭57−194096(JP,A) 特開 平6−226290(JP,A) 特開 平7−124584(JP,A) 実開 平1−61998(JP,U) (58)調査した分野(Int.Cl.7,DB名) C02F 3/34 101 C02F 3/12 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-9-108692 (JP, A) JP-A-63-28500 (JP, A) JP-A-57-194096 (JP, A) JP-A-6- 226290 (JP, A) JP 7-124584 (JP, A) Actual development 1-6 1998 (JP, U) (58) Fields investigated (Int.Cl. 7 , DB name) C02F 3/34 101 C02F 3/12
Claims (6)
廃水を導入して脱リン剤を含む添加剤を添加混合する添
加部と、該添加部で添加剤が添加混合されたし尿廃水を
導入して酸化処理する前反応手段と、該前反応手段で処
理された廃水を上澄み液と汚泥に重力式固液分離を行う
汚泥沈降槽と、該汚泥沈降槽で分離された汚泥を脱水す
る脱水手段と、前記汚泥沈降槽で分離された上澄み液を
導入して硝化脱窒処理する反応手段と、該反応手段から
送られる懸濁液を汚泥と処理液に固液分離する固液分離
手段とを有し、且つ前記反応手段内で発生する余剰汚泥
を前記添加部あるいはその前工程に返送する返送手段を
有することを特徴とするし尿廃水の処理装置。1. An addition unit for introducing and mixing human urine wastewater containing at least raw urine and septic tank sludge to add and mix an additive containing a dephosphorization agent, and introducing urine wastewater to which the additive has been added and mixed in the adding unit. And a sludge settling tank for performing gravity solid-liquid separation of the wastewater treated by the pre-reaction section into a supernatant and sludge, and a sludge separated in the sludge settling tank. Dewatering means for dehydrating, reaction means for introducing nitric acid denitrification treatment by introducing the supernatant liquid separated in the sludge settling tank, solid-liquid for solid-liquid separation of the suspension sent from the reaction means into sludge and treatment liquid An apparatus for treating waste urine wastewater, comprising: a separating means, and a returning means for returning the excess sludge generated in the reaction means to the addition section or the preceding step thereof.
離手段後に、脱色のための活性炭処理手段を有すること
を特徴とする請求項1記載のし尿廃水の処理装置。2. The treatment apparatus for human waste wastewater according to claim 1 , wherein the solid-liquid separation means is a membrane separation means, and the activated carbon treatment means for decolorization is provided after the membrane separation means.
分を含む添加剤を添加することを特徴とする請求項1又
は2記載のし尿廃水の処理装置。3. An additive containing a silica component together with a dephosphorizing agent is added in the adding section.
Is an apparatus for treating human waste wastewater according to 2 .
分とマグネシウム成分を含む無機塩の溶解液であること
を特徴とする請求項3記載のし尿廃水の処理装置。4. The treatment apparatus for human waste water according to claim 3, wherein the additive containing a silica component is a solution of an inorganic salt containing a silica component and a magnesium component.
複合結晶鉱物・非結晶鉱物からなるシリカ系原料から得
られるシリカ系凝集液であることを特徴とする請求項3
記載のし尿廃水の処理装置。5. The additive comprising the silica component, according to claim, characterized in that a silica-based aggregation liquor from silica-based material comprising a composite crystalline mineral and non-crystalline minerals silica 3
An apparatus for treating human waste water as described.
主体とする土壌成形体であることを特徴とする請求項3
記載のし尿廃水の処理装置。6. The method of claim 3 in which the additive containing the silica component, characterized in that it is a soil molded body consisting mainly of humic
An apparatus for treating human waste water as described.
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JP20855397A JP3369915B2 (en) | 1997-07-17 | 1997-07-17 | Night soil treatment equipment |
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