JP3505559B2 - Pollution load meter - Google Patents
Pollution load meterInfo
- Publication number
- JP3505559B2 JP3505559B2 JP03597796A JP3597796A JP3505559B2 JP 3505559 B2 JP3505559 B2 JP 3505559B2 JP 03597796 A JP03597796 A JP 03597796A JP 3597796 A JP3597796 A JP 3597796A JP 3505559 B2 JP3505559 B2 JP 3505559B2
- Authority
- JP
- Japan
- Prior art keywords
- load
- load meter
- measuring
- pollution
- organic
- 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
Landscapes
- Separation Using Semi-Permeable Membranes (AREA)
- Apparatus Associated With Microorganisms And Enzymes (AREA)
- Measuring Or Testing Involving Enzymes Or Micro-Organisms (AREA)
Description
【発明の属する技術分野】本発明はバイオセンサを用い
て、下・排水処理プロセスの流入水の汚濁負荷量を計測
する装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for measuring the pollution load of inflow water of a lower / wastewater treatment process using a biosensor.
【従来の技術】現在、下・排水処理プロセスにおいて計
測や制御に利用されている項目は、流入下水量、送風
量、返送汚泥量など、物理的な量の指標が主体であり、
水の汚濁の状況など水質に関連する化学・生物学的な量
の指標は、溶存酸素濃度や汚泥濃度などがある程度であ
る。しかしながら、大都市の下・排水や放流水の水質基
準レベルの維持が難しい処理場の下・排水については、
下・排水の水質向上や水資源としての処理水の再利用と
いう観点から、活性汚泥微生物処理やオゾン処理などの
高度処理の重要性が高まってきており、これに対応した
質的計測技術・制御技術の必要性に大きな関心が寄せら
れている。その中で、流入水の有機汚濁負荷量の計測
は、下・排水の浄化の主役である活性汚泥微生物の餌と
なる有機物の量を把握する上で重要であるが、正確に計
測できる手段がないため、従来は通日試験と称して、1
日における流入下水の時間的な濃度変化、平均濃度、負
荷量の把握等を目的とし、それぞれの処理場の実態に合
わせて適当な時間間隔で採水し、生物化学的酸素要求量
(BOD)を手分析で測定することにより行われてき
た。しかし、手分析によるBODの測定は、長時間を要
することから、処理の効率化を図るためリアルタイムで
有機汚濁負荷量を計測できる連続的自動モニタリング装
置の開発が望まれていた。従来、有機汚濁負荷量に関連
した計測器としては、全有機炭素量(TOC)計と生物
化学的酸素要求量(BOD)計があげらる。TOC計に
よる測定は、水中の有機物を600°Cで燃焼または酸
化剤で酸化分解してCO2 に変換し、CO2 の赤外線の
吸光度を非分散の赤外線ガス分析計(NDIR)で測定
して有機物の量を求める方法である。この方法は全ての
有機物をCO2 に酸化して測定できるが、生物による酸
化分解とはメカニズムが異なるため、必ずしも活性汚泥
微生物への負荷量と一致しない。例えば、難分解性の有
機物が水中に存在すると、それも有機汚濁負荷量(活性
汚泥微生物の餌)として測定してしまうという欠点があ
った。BOD計による測定は、手分析をそのまま自動化
した方式もあるが、更に進んだ方式として、活性汚泥微
生物または雑食性の酵母を固定化した固定化微生物膜と
溶存酸素電極とより構成されたバイオセンサを用いて、
水中の有機物を微生物が資化する際に消費する酸素の量
を溶存酸素電極で測定するものがあり、約40分程度と
ほぼリアルタイムで計測が可能であり、微生物を用いる
ことから、測定結果を活性汚泥微生物への汚濁物質の負
荷量(C−BOD)として把握することが期待できる。2. Description of the Related Art Currently, the items used for measurement and control in a sewage / wastewater treatment process are mainly physical quantity indicators such as inflow sewage volume, blast volume, and returned sludge volume.
The indicators of chemical and biological quantities related to water quality, such as the state of water pollution, are to some extent dissolved oxygen concentration and sludge concentration. However, regarding the wastewater and wastewater of the treatment plant where it is difficult to maintain the water quality standard level of the wastewater and the discharge water of the big city,
From the viewpoint of improving the quality of wastewater and wastewater and reusing treated water as a water resource, the importance of advanced treatment such as activated sludge microbial treatment and ozone treatment is increasing, and qualitative measurement technology and control corresponding to this There is great interest in the need for technology. Among them, the measurement of the organic pollution load of inflow water is important for grasping the amount of organic matter that feeds activated sludge microorganisms, which is the main player in the purification of wastewater and drainage, but a method that can be accurately measured is available. Since there is no such thing, it is conventionally called a day-to-day test and
The biochemical oxygen demand (BOD) was collected at appropriate time intervals according to the actual conditions of each treatment plant for the purpose of grasping the temporal concentration change, average concentration, and load amount of influent sewage. Has been done by hand-measuring. However, since BOD measurement by manual analysis requires a long time, it has been desired to develop a continuous automatic monitoring device capable of measuring the organic pollution load amount in real time in order to improve the efficiency of treatment. Conventionally, as a measuring instrument related to an organic pollution load, there are a total organic carbon (TOC) meter and a biochemical oxygen demand (BOD) meter. The TOC measurement is carried out by burning organic matter in water at 600 ° C or oxidizing and decomposing it with an oxidant to convert it into CO 2 , and measuring the infrared absorption of CO 2 with a non-dispersive infrared gas analyzer (NDIR). This is a method of determining the amount of organic matter. This method can be measured by oxidizing all organic substances to CO 2 , but since the mechanism is different from the oxidative decomposition by organisms, it does not necessarily match the load on the activated sludge microorganisms. For example, if a persistent organic substance is present in water, it also has a drawback that it is also measured as an organic pollution load amount (feed of activated sludge microorganisms). Although there is a method in which manual analysis is automated as it is for the measurement by the BOD meter, as a more advanced method, a biosensor composed of an immobilized microbial membrane on which activated sludge microorganisms or omnivorous yeasts are immobilized and a dissolved oxygen electrode. Using,
There is one that measures the amount of oxygen consumed when microorganisms assimilate organic matter in water with a dissolved oxygen electrode, and it is possible to measure in about real time in about 40 minutes. It can be expected to be grasped as the amount of pollutant load (C-BOD) on the activated sludge microorganisms.
【発明が解決しようとする課題】しかしながら、有機汚
濁負荷量をバイオセンサを用いたC−BOD計で測定す
る方法では、大きくみて次の4つの問題点があった。
1)アンモニア性窒素を硝化する微生物に関する負荷量
(N−BOD)が計測できない。
2)活性汚泥微生物や雑食性の酵母など下・排水の浄化
に有効な生物に有害な物質が水中に存在する場合でも、
これを検知できないため、測定値が低めの値になり、汚
濁負荷量が実際より低めに見積もられる可能性がある。
3)有害物質による活性汚泥微生物の阻害を考慮したプ
ロセスの運転管理ができない。
4)溶解性の成分の計測を目的とした水質計に適した懸
濁物質除去装置がない。However, the method of measuring the amount of organic pollution load with a C-BOD meter using a biosensor has the following four major problems. 1) The load amount (N-BOD) of microorganisms that nitrify ammoniacal nitrogen cannot be measured. 2) Even when substances harmful to living organisms such as activated sludge microorganisms and omnivorous yeast that are effective for purification of wastewater and wastewater are present in water,
Since this cannot be detected, the measured value will be a lower value and the pollution load may be estimated lower than it actually is. 3) The operation management of the process cannot be done considering the inhibition of activated sludge microorganisms by harmful substances. 4) There is no device for removing suspended solids suitable for water quality measurement for the purpose of measuring soluble components.
【課題を解決するための手段】本発明では上記課題を解
決するために、計測は有機物由来の負荷量の計測部と、
アンモニア性窒素由来の硝化への負荷量の計測部および
有害物質の計測部との3部で構成し、前処理は懸濁物質
除去手段としては中空糸膜モジュ−ルを用いた前処理部
を、さらに希釈部、演算・制御部、記録部も含めて、汚
濁負荷量計を構成した。上記構成の汚濁負荷量計は、汚
濁負荷量を有機物系負荷量および硝化系負荷量として計
測でき、また硝化菌の呼吸活性の低下を検出することに
より有害物質の混入を検出できるので、下水処理の活性
汚泥プロセスの微生物に対する汚濁物質の負荷量とその
質(有機物負荷と硝化に対する負荷)、さらに有害物質
の流入による活性汚泥微生物への影響を考慮したプロセ
スの制御・管理が可能となり、従来装置の1)、2)、
3)の課題が解決できた。また、中空糸膜モジュ−ルを
懸濁物質除去手段として採用したことにより、安定に前
記バイオセンサに検水を供給することが可能となり、装
置の保守面での性能の向上が可能となり、4)の課題が
解決できた。According to the present invention, in order to solve the above-mentioned problems, the measurement is performed by a measuring unit for a load amount derived from an organic substance,
It is composed of three parts, a measuring part for the amount of load on nitrification derived from ammoniacal nitrogen and a measuring part for harmful substances. The pretreatment is a pretreatment part using a hollow fiber membrane module as a suspended substance removing means. In addition, the pollution load meter was configured including the dilution section, the calculation / control section, and the recording section. The pollution load meter with the above configuration can measure the pollution load as an organic load and a nitrification load, and can detect the contamination of harmful substances by detecting a decrease in respiratory activity of nitrifying bacteria. It is possible to control and manage the process by considering the load and quality of pollutants (microorganism load and load on nitrification) to microorganisms in the activated sludge process, and the effect on the activated sludge microorganisms due to the inflow of harmful substances. 1), 2),
The problem of 3) was solved. Further, by adopting the hollow fiber membrane module as the suspended substance removing means, it is possible to stably supply the test water to the biosensor, and it is possible to improve the performance in terms of maintenance of the device. ) Was solved.
【発明の実施の形態】本発明による汚濁負荷量計1は第
1図に示すように、前処理部2、有機物系負荷量(C−
BOD)計測部3、硝化系負荷量(N−BOD)計測部
4、有害物質計測部5、希釈部6、演算・制御部7、記
録・表示部8より構成される。実際の計測の一連の動作
は、演算・制御部7で全てが制御されるが、まず検水
(測定試料水)が前処理部2で、配管の閉塞原因となる
懸濁物質を取り除かれる。その後、有害物質計測部5
と、希釈部6を通した有機物系負荷量計測部3と、希釈
部6を通した硝化系負荷量計測部4とへ並列に導入され
る。3つの計測部では、それぞれが予め設定されたシ−
ケンスに従い、各標準液によるセンサの自動校正が行わ
れた後に、検水のモニタリングが連続的に行われる。有
機物系負荷量計測部3、硝化系負荷量計測部4での測定
結果は、演算・制御部7で演算され、それぞれ有機物系
負荷量、硝化系負荷量として記録・表示部8で記録・表
示され、もし、有害物質計測部5での測定結果で有害物
質が検知された場合には、それぞれの負荷量の測定値に
有害物質が混入している表示が行われる。次に、各構成
部分の概要を説明する。前処理部2の構成を第2図に示
す。前処理部2は中空糸膜モジュ−ル(または不織布を
用いた濾過装置)22を収納した水槽21と、エア−ポ
ンプ23、検水吸引ポンプ24、圧力センサ25、一次
貯溜槽26、散気管27などより構成されている。動作
は、まず検水を中空糸膜モジュ−ル22を通して一定時
間検水吸引ポンプ24で吸引し、一定時間エアポンプ2
3と散気管27とによるバブリングで中空糸膜モジュ−
ル22の洗浄工程を繰り返しながら、中空糸膜モジュ−
ルを通過した検水すなわち測定試料水を一次貯溜槽26
に送る。この測定試料水を有害物質計測部6と、希釈部
3を通した有機物系負荷量計測部3と、希釈部3を通し
た硝化系負荷量計測部4とへ並列に導入され測定が行な
われる。有機物系負荷量計測部3の構成の一例を第3図
に示す。この計測部3はC−BOD用バイオセンサ3
0、恒温槽31、エアポンプ32、緩衝溶液A33、イ
オン交換水34、標準溶液A35、標準溶液B36、洗
浄液37、ポンプA38、ポンプB39から構成され、
有機物系の負荷量を測定できる。特願平6−29079
0号公報には、その測定動作の詳細が記載されている。
硝化系負荷量計測部4の構成の一例を第4図に示す。こ
の計測部4はN−BOD用バイオセンサ40、恒温槽4
1、エアポンプ42、緩衝溶液B43、イオン交換水4
4、標準溶液C45、洗浄液46、ポンプA47、ポン
プB48から構成され、硝化系負荷量を測定できる。特
開平7−35741号公報には、その測定動作の詳細が
記載されている。有害物質計測部5の構成の一例を第5
図に示す。この計測部5は有害物質用バイオセンサ5
0、恒温槽51、エアポンプ52、緩衝溶液C53、緩
衝溶液D54、イオン交換水55、洗浄液56、ポンプ
A57、ポンプB58から構成され、有害物質を測定で
きる。特開平2−25654号公報には、その測定動作
の詳細が記載されている。以上はC−CODとN−CO
Dとを測定する有機汚濁負荷量計の構成と動作の概略の
説明であるが、C−CODまたはN−CODだけを測定
する有機汚濁負荷量計を製作したい場合には、上記の構
成から、それぞれ硝化系負荷量計測部4または 有機物
系負荷量計測部3を除いて装置を構成することにより、
目的を達成できる。BEST MODE FOR CARRYING OUT THE INVENTION A pollution load meter according to the present invention1Is the
As shown in Fig. 1, the preprocessing unitTwo, Organic matter load (C-
BOD) Measuring unitThree, Nitrification system load (N-BOD) measurement unit
Four, Hazardous Substances Measurement Department5, Dilution unit 6, calculation / control unit 7,
It is composed of a recording / display unit 8. A series of actual measurement operations
Is controlled by the calculation / control unit 7, but
(Measurement sample water) is the pretreatment sectionTwoWill block the piping.
Suspended material is removed. After that, the hazardous substance measurement department5
And an organic matter-based load amount measuring section through the diluting section 6ThreeAnd diluted
Nitrification system load amount measurement section through section 6FourAnd introduced in parallel to
It Each of the three measuring units has a preset series.
Automatic calibration of the sensor with each standard solution according to the can
After this, the monitoring of the test water is continuously performed. Existence
Machinery load measurement unitThree, Nitrification system load measurement unitFourMeasurement at
The result is calculated by the calculation / control unit 7, and the organic matter system is used.
Record and display the load amount and the nitrification load amount on the display unit 8.
Shown if the hazardous substance measurement department5Hazardous substances in the measurement results in
When quality is detected, the measured value of each load is
The indication that harmful substances are mixed is displayed. Next, each configuration
The outline of the part is explained. Pre-processing sectionTwoFigure 2 shows the configuration of
You Pre-processing sectionTwoIs a hollow fiber membrane module (or non-woven fabric
(The filtering device used) 22 and an air port 21
Pump 23, test water suction pump 24, pressure sensor 25, primary
It is composed of a storage tank 26, an air diffuser 27, and the like. motion
First, the test water is passed through the hollow fiber membrane module 22 for a certain period of time.
Sampling with the interim test water suction pump 24, and the air pump 2 for a certain time
The hollow fiber membrane module is formed by bubbling with 3 and the air diffuser 27.
The hollow fiber membrane module
The primary storage tank 26
Send to. This measurement sample water is used to measure harmful substances6And the dilution section
Organic matter load measurement part through 3ThreeThrough the dilution section 3
Nitrification system load measurement unitFourAnd are introduced in parallel to
Be seen. Organic matter system load measurement unitThreeFig. 3 shows an example of the configuration of
Shown in. This measuring unitThreeIs a biosensor for C-BOD 3
0, constant temperature bath 31, air pump 32, buffer solution A33, a
On-exchange water 34, standard solution A35, standard solution B36, washing
Comprised of a purified liquid 37, a pump A38, a pump B39,
The load of organic substances can be measured. Japanese Patent Application No. 6-29079
The 0 publication describes the details of the measurement operation.
Nitrification system load measurement unitFourFIG. 4 shows an example of the above configuration. This
Measuring unitFourIs the N-BOD biosensor 40, the constant temperature bath 4
1, air pump 42, buffer solution B43, ion-exchanged water 4
4, standard solution C45, cleaning solution 46, pump A47, pump
B48, it is possible to measure the nitrification system load. Special
In Kaihei 7-35741, the details of the measurement operation are described.
Have been described. Hazardous substance measurement department5The fifth example of the configuration of
Shown in the figure. This measuring unit5Is a biosensor 5 for harmful substances
0, constant temperature bath 51, air pump 52, buffer solution C53, loose
Impulse solution D54, ion-exchanged water 55, cleaning solution 56, pump
Consists of A57 and pump B58 for measuring harmful substances
Wear. Japanese Patent Laid-Open No. 25655/1990 discloses the measurement operation.
The details of are described. The above is C-COD and N-CO
Of the structure and operation of the organic pollution load meter for measuring D and
For explanation, measure only C-COD or N-COD
If you want to make an organic pollution load meter that
From the production to the nitrification system load measurement unitFourOr organic
System load measurement unitThreeBy configuring the device except
Can achieve the purpose.
【発明の効果】本発明の汚濁負荷量計は、汚濁負荷量を
有機物系負荷量および硝化系負荷量として計測でき、し
かも有害物質の混入の検知が可能なので活性汚泥プロセ
スの微生物に対する負荷量を質的に把握できると同時に
活性汚泥微生物への影響を考慮したプロセスの運転・制
御・管理が可能となる。The pollutant load meter of the present invention can measure the pollutant load amount as an organic substance-based load amount and a nitrification-based load amount, and can detect the contamination of harmful substances. It is possible to operate, control, and manage the process while considering the effect on activated sludge microorganisms while being able to understand qualitatively.
【図1】本発明の汚濁負荷量計の装置構成を示す図FIG. 1 is a diagram showing a device configuration of a pollution load meter of the present invention.
【図2】本発明の汚濁負荷量計の前処理部の構成を示す
図FIG. 2 is a diagram showing a configuration of a pretreatment unit of the pollution load meter of the present invention.
【図3】本発明の汚濁負荷量計の有機系負荷量計測部の
構成を示す図FIG. 3 is a diagram showing a configuration of an organic load amount measuring unit of the pollution load meter of the present invention.
【図4】本発明の汚濁負荷量計の硝化系負荷量計測部の
構成を示す図FIG. 4 is a diagram showing a configuration of a nitrification system load amount measuring unit of the pollution load meter of the present invention.
【図5】本発明の汚濁負荷量計の有害物質計測部の構成
を示す図。FIG. 5 is a diagram showing a configuration of a harmful substance measuring unit of the pollution load meter of the present invention.
【符号の説明】1 汚濁負荷量計2 前処理部3 有機物系負荷量(C−BOD)計測部4 硝化系負荷量(N−BOD)計測部5 有害物質計測部 6 希釈部 7 演算・制御部 8 記録・表示部 21 水槽 22 中空糸膜モジュ−ル 23 エア−ポンプ 24 検水吸引ポンプ 25 圧力センサ 26 一次貯溜槽 27 散気管 30 C−BOD用バイオセンサ 40 N−BOD用バイオセンサ 50 有害物質用バイオセンサ 31,41,51 恒温槽 32,42,52 エアポンプ 33 緩衝溶液A 43 緩衝溶液B 53 緩衝溶液C 54 緩衝溶液D 34,44,55 イオン交換水 35 標準溶液A 36 標準溶液B 45 標準溶液C 37,46,56 洗浄液 38,47,57 ポンプA 39,48,58 ポンプB[Explanation of Codes] 1 Pollution Load Meter 2 Pretreatment Unit 3 Organic Substance Load (C-BOD) Measuring Unit 4 Nitrification Load (N-BOD) Measuring Unit 5 Hazardous Substance Measuring Unit 6 Diluting Unit 7 Calculation / Control Part 8 Recording / display part 21 Water tank 22 Hollow fiber membrane module 23 Air-pump 24 Test water suction pump 25 Pressure sensor 26 Primary storage tank 27 Air diffuser 30 C-BOD biosensor 40 N-BOD biosensor 50 Harmful Biosensor for substance 31, 41, 51 Constant temperature bath 32, 42, 52 Air pump 33 Buffer solution A 43 Buffer solution B 53 Buffer solution C 54 Buffer solution D 34, 44, 55 Ion-exchanged water 35 Standard solution A 36 Standard solution B 45 Standard solution C 37,46,56 Cleaning solution 38,47,57 Pump A 39,48,58 Pump B
フロントページの続き (51)Int.Cl.7 識別記号 FI B01D 63/02 B01D 63/02 63/04 63/04 65/02 520 65/02 520 C12M 1/40 C12M 1/40 B C12Q 1/02 C12Q 1/02 G01N 27/327 G01N 27/30 355 27/416 27/46 N (72)発明者 上野 健郎 神奈川県川崎市川崎区田辺新田1番1号 富士電機株式会社内 (56)参考文献 特開 平7−35741(JP,A) 特開 平6−222041(JP,A) 特開 平4−83575(JP,A) 特開 平6−126293(JP,A) 特開 平5−96287(JP,A) 特開 平5−10921(JP,A) (58)調査した分野(Int.Cl.7,DB名) G01N 33/18 Front page continuation (51) Int.Cl. 7 Identification code FI B01D 63/02 B01D 63/02 63/04 63/04 65/02 520 65/02 520 C12M 1/40 C12M 1/40 B C12Q 1/02 C12Q 1/02 G01N 27/327 G01N 27/30 355 27/416 27/46 N (72) Inventor Takero Ueno 1-1 Tanabe Nitta, Kawasaki-ku, Kawasaki-shi, Kanagawa Fuji Electric Co., Ltd. (56) References JP-A-7-35741 (JP, A) JP-A-6-222041 (JP, A) JP-A-4-83575 (JP, A) JP-A-6-126293 (JP, A) JP-A-5-96287 (JP, A) JP-A-5-10921 (JP, A) (58) Fields investigated (Int.Cl. 7 , DB name) G01N 33/18
Claims (6)
濁負荷量を測定する装置において、懸濁物質除去手段と
しての懸濁物質前処理部と、有機物系負荷量計測部およ
び硝化系負荷量計測部と、負荷量計測用の微生物または
下・排水の浄化に有効な生物に対する有害物質測定部と
を備えることを特徴とする汚濁負荷量計。Claim: What is claimed is: 1. An apparatus for measuring an organic pollution load amount of inflow water of a lower / wastewater treatment process, comprising:
Pretreatment unit for suspended substances , organic substance-based load amount measurement unit and nitrification-based load amount measurement unit, and microorganisms for load amount measurement or
Pollutant load meter, characterized in that it comprises a <br/> harmful substances measurement unit for effective organism purification below and drainage.
有機物系負荷量、硝化系負荷量、有害物質のうち、少な
くとも1種類以上の計測にバイオセンサを用いることを
特徴とする汚濁負荷量計。2. The pollution load meter according to claim 1,
A pollutant load meter characterized by using a biosensor for measuring at least one or more of organic load, nitrification load and harmful substances.
有機物負荷量計測用バイセンサが従属栄養細菌を固定化
した固定化微生物膜と溶存酸素電極とで構成されている
ことを特徴とする汚濁負荷量計。3. The pollution load meter according to claim 1,
A pollution load meter characterized in that a bisensor for measuring an organic matter load is composed of an immobilized microbial membrane on which heterotrophic bacteria are immobilized and a dissolved oxygen electrode.
硝化系負荷量計測用バイオセンサが独立栄養細菌の亜硝
酸生成菌を固定化した固定化微生物膜と溶存酸素電極で
構成されていることを特徴とする汚濁負荷量計。4. The pollution load meter according to claim 1,
A pollutant load meter, characterized in that a biosensor for measuring the nitrification load is composed of an immobilized microbial membrane on which autotrophic nitrite-producing bacteria are immobilized and a dissolved oxygen electrode.
有害物質計測用バイオセンサが独立栄養細菌の亜硝酸生
成菌を固定化した固定化微生物膜と溶存酸素電極で構成
されていることを特徴とする汚濁負荷量計。5. The pollution load meter according to claim 1,
A pollutant load meter characterized in that a biosensor for measuring harmful substances comprises an immobilized microbial membrane on which autotrophic nitrite-producing bacteria are immobilized and a dissolved oxygen electrode.
懸濁物質前処理部が中空糸膜モジュ−ルを用いたことを
特徴とする汚濁負荷量計。6. The pollution load meter according to claim 1,
A pollutant load meter characterized in that a pretreatment part for suspended matter uses a hollow fiber membrane module.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP03597796A JP3505559B2 (en) | 1996-02-23 | 1996-02-23 | Pollution load meter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP03597796A JP3505559B2 (en) | 1996-02-23 | 1996-02-23 | Pollution load meter |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH09229923A JPH09229923A (en) | 1997-09-05 |
JP3505559B2 true JP3505559B2 (en) | 2004-03-08 |
Family
ID=12456969
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP03597796A Expired - Fee Related JP3505559B2 (en) | 1996-02-23 | 1996-02-23 | Pollution load meter |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3505559B2 (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2888238B1 (en) * | 1998-02-16 | 1999-05-10 | 日本電気株式会社 | Activated sludge treatment apparatus and method for controlling returned sludge |
KR100483587B1 (en) * | 2002-10-30 | 2005-04-19 | 한국바이오시스템(주) | BOD Analyzer using Biochemical Fuel Cells with installed Membrane-Electrode Assembly |
JP4594764B2 (en) * | 2005-03-03 | 2010-12-08 | 株式会社東芝 | Pretreatment equipment for water quality measurement |
JP2008032691A (en) * | 2006-06-29 | 2008-02-14 | Fuji Electric Systems Co Ltd | Water quality monitoring system and method |
JP4191788B1 (en) * | 2008-04-21 | 2008-12-03 | 隆二 塩▲崎▼ | Sewage purification equipment |
-
1996
- 1996-02-23 JP JP03597796A patent/JP3505559B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH09229923A (en) | 1997-09-05 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Vanrolleghem et al. | On-line monitoring equipment for wastewater treatment processes: state of the art | |
CA2118699C (en) | Apparatus for monitoring liquids | |
US5160604A (en) | Toxic substance-detecting system with fixed microorganism membrane for water quality-monitoring | |
Spinelli et al. | Critical analyses of nitrous oxide emissions in a full scale activated sludge system treating low carbon-to-nitrogen ratio wastewater | |
CN107192800A (en) | A kind of evaluation method of wastewater from chemical industry toxicity and biodegradability degree | |
CN102288653A (en) | Online biochemical oxygen demand (BOD) detector and detection method of same | |
US4620930A (en) | Process for rapidly determining biological toxicity of wastewater | |
JP3505559B2 (en) | Pollution load meter | |
CN107315076A (en) | A kind of online oxicity analysis system and its assay method | |
CN202083662U (en) | Online tester for biochemical oxygen demand BOD | |
CN107367476A (en) | Assess method and system and its application in water process of the biodegradability of water | |
Vanrolleghem | Sensors for anaerobic digestion: An overview | |
CN110790376A (en) | Method for evaluating biological treatment characteristics of wastewater | |
CN210953907U (en) | Sewage treatment plant toxicity of intaking on-line measuring device | |
CA2085374C (en) | Continuous rbcod measurement | |
CN211122512U (en) | Permanganate index analysis system | |
CN108375610B (en) | Correction method for analyzing sludge enzyme activity based on oxygen consumption rate inhibition rate | |
Young et al. | Biochemical oxygen demand (BOD), chemical oxygen demand (COD), and total oxygen demand (TOD) | |
Robinsons | Assessment of methods for evaluating the treatability of sewage and the effects of industrial discharges | |
JPH03229129A (en) | Sample device for measuring water quality | |
Beach et al. | A Computerized Respirometric Method for Determining Inhibition Potential of Wastewaters | |
JPH0735741A (en) | Bod measuring equipment | |
JP3077461B2 (en) | How to monitor hazardous substances in water | |
CN207908494U (en) | A kind of online oxicity analysis system | |
SU870357A1 (en) | Method of control of waste water biochemical purification process |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20071226 Year of fee payment: 4 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081226 Year of fee payment: 5 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081226 Year of fee payment: 5 |
|
S531 | Written request for registration of change of domicile |
Free format text: JAPANESE INTERMEDIATE CODE: R313531 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081226 Year of fee payment: 5 |
|
R350 | Written notification of registration of transfer |
Free format text: JAPANESE INTERMEDIATE CODE: R350 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081226 Year of fee payment: 5 |
|
S111 | Request for change of ownership or part of ownership |
Free format text: JAPANESE INTERMEDIATE CODE: R313113 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081226 Year of fee payment: 5 |
|
R350 | Written notification of registration of transfer |
Free format text: JAPANESE INTERMEDIATE CODE: R350 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081226 Year of fee payment: 5 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20091226 Year of fee payment: 6 |
|
S111 | Request for change of ownership or part of ownership |
Free format text: JAPANESE INTERMEDIATE CODE: R313111 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20091226 Year of fee payment: 6 |
|
R350 | Written notification of registration of transfer |
Free format text: JAPANESE INTERMEDIATE CODE: R350 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20101226 Year of fee payment: 7 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20101226 Year of fee payment: 7 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20111226 Year of fee payment: 8 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20111226 Year of fee payment: 8 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20121226 Year of fee payment: 9 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20121226 Year of fee payment: 9 |
|
FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20131226 Year of fee payment: 10 |
|
LAPS | Cancellation because of no payment of annual fees |