JPH1128474A - Method for evaluating slime generation condition of paper pulp production process and slime control method therefor - Google Patents

Method for evaluating slime generation condition of paper pulp production process and slime control method therefor

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Publication number
JPH1128474A
JPH1128474A JP18516097A JP18516097A JPH1128474A JP H1128474 A JPH1128474 A JP H1128474A JP 18516097 A JP18516097 A JP 18516097A JP 18516097 A JP18516097 A JP 18516097A JP H1128474 A JPH1128474 A JP H1128474A
Authority
JP
Japan
Prior art keywords
slime
electrode
white water
potential difference
stainless steel
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.)
Granted
Application number
JP18516097A
Other languages
Japanese (ja)
Other versions
JP3859309B2 (en
Inventor
Zenji Yamaguchi
善治 山口
Kazuhiro Takeuchi
一博 竹内
Hiroyuki Hirano
弘之 平野
Hideki Takahashi
秀樹 高橋
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hakuto Co Ltd
Original Assignee
Hakuto Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Hakuto Co Ltd filed Critical Hakuto Co Ltd
Priority to JP18516097A priority Critical patent/JP3859309B2/en
Publication of JPH1128474A publication Critical patent/JPH1128474A/en
Application granted granted Critical
Publication of JP3859309B2 publication Critical patent/JP3859309B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To make it possible to promptly change the injection rate of a slime control agent and to execute slime control by passing the white water or pulp slurry of a paper pulp production process to a slime monitor apparatus and evaluating a slime generation from the interelectrode potential difference between an instruction electrode and reference electrode. SOLUTION: The stainless steel electrode 2 of the slime monitor apparatus is formed of SUS 304. The spacing between the front end thereof and the front end of a silver electrode 4 and the spacing between the front end of this silver electrode 4 and the front end of a platinum electrode 6 are respectively specified to 5 mm and 5 mm and the distance between the instruction electrode and the reference electrode is set at 7 cm. The slime control agent is added to an under-wire white water pit and machine chest in a production line for wood pulp paper and part of the white water is branched from the white water circulation line of a neutral paper machine subjected to the slime control and is passed to the slime monitor apparatus. Significant relations are admitted between the potential difference and the number of bacteria in the white water, the number of the specks formed at the produced paper, the number of defects thereof as a result of the transition of the potential difference and the number of bacteria of this time.

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】本発明は紙パルプの製造工程
における白水あるいはパルプスラリーにおけるスライム
の発生状況を評価し、その結果からスライムコントロー
ルを行う方法に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for evaluating the occurrence of slime in white water or pulp slurry in a paper pulp manufacturing process, and performing slime control based on the result.

【0002】[0002]

【従来の技術】紙パルプ製造工程においては、多量の水
と多種多様な有機薬品とを使用し、さらに適度な温度に
あるために、微生物の繁殖にとっては極めて好ましい環
境にある。これら微生物のあるものは粘着性物質を分泌
し、これが系内の固形物と一緒になり塊状あるいは泥状
の所謂スライムを形成する。スライムは、多くの場合、
白水ピット、チェスト、ストックインレット、配管等の
表面に発生、付着し、これがある時剥離して白水中やパ
ルプスラリー中に混入し紙に取り込まれると紙切れを起
こしたり、あるいは紙やパルプに斑点となって製品の品
質を著しく低下させるなど数々の弊害をもたらしてい
る。
2. Description of the Related Art In a paper pulp production process, a large amount of water and a wide variety of organic chemicals are used, and the temperature is moderate, so that the environment is extremely favorable for the propagation of microorganisms. Some of these microorganisms secrete viscous substances which, together with the solids in the system, form so-called slimes in the form of clumps or sludge. Slime is often
It is generated and adheres to the surface of white water pits, chests, stock inlets, pipes, etc., peels off at this point and mixes with white water or pulp slurry, and when it is taken into paper, paper breaks or spots on paper or pulp It has caused a number of adverse effects such as significantly lowering product quality.

【0003】スライムの発生を防止するためには、各種
のスライムコントロール剤が使用されている。工程中の
スライムの発生状況を評価する方法、あるいはスライム
コントロール剤の効果を評価する方法は、工程水を採取
しその中の菌数測定を行いその結果から推測するのが一
般的である。しかし、菌数の測定は、培地を使用して、
一定期間微生物を増殖させてから、その数を計測するも
ので、その測定には数日間要するのが普通である。その
ため、即時に現場の状況を測定評価することはできず、
迅速な対応がとれない欠点がある。さらに、菌数測定で
は、対象とする菌によって使用する培地が異なるため、
培養後の菌相は、培養前とは異なる欠点がある。
[0003] In order to prevent the generation of slime, various slime control agents have been used. In general, a method for evaluating the state of slime generation during a process or a method for evaluating the effect of a slime control agent is to collect process water, measure the number of bacteria therein, and infer from the results. However, the measurement of the number of bacteria uses a medium,
After the microorganisms are grown for a certain period of time, the number is counted, and the measurement usually takes several days. Therefore, it is not possible to measure and evaluate the situation at the site immediately,
There is a drawback that quick response cannot be taken. Furthermore, in the measurement of the number of bacteria, since the medium to be used differs depending on the target bacteria,
The microflora after cultivation has disadvantages different from those before culturing.

【0004】このほか、工程水中に適当なテストピース
を吊り下げ、テストピース表面にスライムを付着させ、
その量を測定し評価する方法、酸化還元電位を測定する
方法等が提案されてきた。いずれも簡便な方法である
が、テストピースを吊り下げる方法は、一定期間のスラ
イム付着状況を診るには、手軽で好都合な方法はある
が、連続的に工程をモニターするには多数のテストピー
スを浸潰しなければならず、実用的ではない。一方、酸
化還元電位を測定する方法は、連続的にスライムの発生
・付着状況を測定できるが、スライムの発生量の変化以
上に紙パルプの製造工程で使用する薬品により大きく変
動し、正確さに欠ける欠点がある。
In addition, a suitable test piece is suspended in the process water, and slime is attached to the test piece surface.
A method of measuring and evaluating the amount, a method of measuring the oxidation-reduction potential, and the like have been proposed. Although both methods are simple methods, the method of suspending test pieces is a convenient and convenient method for examining the state of slime adhesion for a certain period, but a large number of test pieces are required for continuous monitoring of the process. Must be immersed, which is not practical. On the other hand, the method of measuring the oxidation-reduction potential can continuously measure the state of generation and adhesion of slime, but it varies greatly depending on the chemical used in the paper pulp manufacturing process more than the change in the amount of slime generated, and it is not accurate. There are missing shortcomings.

【0005】[0005]

【本発明が解決しようとする課題】本発明の目的は、紙
パルプ製造工程において、白水あるいはパルプスラリー
中のスライムの発生状況を連続的に評価し、即時に対応
するスライムコントロール剤の注入量を変えてスライム
コントロールする方法を提供することにある。
SUMMARY OF THE INVENTION An object of the present invention is to continuously evaluate the state of slime generation in white water or pulp slurry in the paper pulp manufacturing process, and to immediately adjust the injection amount of the slime control agent. It is to provide a method of changing the slime control.

【0006】[0006]

【課題を解決する手段】本発明者らは、ステンレス表面
にスライムが形成するとスライム中の微生物の増殖によ
り有機酸を生じる結果、ステンレス表面が腐食を生じこ
の部分に微量の腐食電流が流れることに着目し、この微
量電流かスライム発生状況を知ることができるという知
見を得、この知見に基づいて本発明を完成するに至っ
た。
The present inventors have found that when slime is formed on the surface of stainless steel, the growth of microorganisms in the slime produces organic acids, resulting in corrosion of the surface of the stainless steel and a small amount of corrosion current flowing through this portion. Attention was paid to the finding that the trace current or the slime generation status can be known, and the present invention has been completed based on this finding.

【0007】すなわち請求項1の発明は、スライムを付
着し易くするようにステンレスワイヤーを網状、コイル
状とした、あるいはステンレス表面に多数の溝や凹凸を
持つ板状、パイプ状、棒状を含む適当な形態をしたステ
ンレスを一つの電極とし、これを銀電極と組合せて指示
電極とし、一方白金電極と銀電極を組合せて参照電極と
し、これら両電極を同じパイプ内に設置してなるスライ
ムモニター装置に、紙パルプ製造工程における白水ある
いはパルプスラリーを流通させ、該指示電極と該参照電
極の電極間電位差から紙パルプ製造工程のスライム発生
状況を評価する方法である。
[0007] That is, the invention of claim 1 includes a stainless steel wire in the form of a net or a coil so as to easily attach slime, or a plate, a pipe or a rod having a large number of grooves or irregularities on the stainless steel surface. A slime monitor device in which stainless steel in a specific form is used as one electrode, which is combined with a silver electrode as an indicator electrode, while a platinum electrode and a silver electrode are combined as a reference electrode, and both electrodes are installed in the same pipe Then, white water or a pulp slurry in the paper pulp manufacturing process is passed through, and the slime generation state in the paper pulp manufacturing process is evaluated from the potential difference between the indicator electrode and the reference electrode.

【0008】請求項2の発明は、指示電極と参照電極を
設置したパイプ内を白水あるいはパルプスラリーを0.
2〜10cm/sの線速度で流通させてなる、請求項1
記載のスライム発生状況を評価する方法である。
[0010] According to a second aspect of the present invention, white water or pulp slurry is filled in a pipe in which an indicator electrode and a reference electrode are installed.
2. The liquid is circulated at a linear velocity of 2 to 10 cm / s.
This is a method for evaluating the described slime generation status.

【0009】請求項3の発明は、指示電極と参照電極の
電極間電位差と、スライムコントロール剤の注入装置を
連結させることにより、該電極間電位差により該スライ
ムコントロール剤注入量を制御することを特徴とする紙
パルプ製造工程のスライムコントロール方法である。
A third aspect of the present invention is characterized in that the potential difference between the indicator electrode and the reference electrode is connected to an injection device for the slime control agent, and the injection amount of the slime control agent is controlled by the potential difference between the electrodes. This is a slime control method in the paper pulp manufacturing process.

【0010】[0010]

【発明の実施の形態】以下に本発明について詳細に説明
する。
DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail.

【0011】本発明は、白水あるいはパルプスラリー等
の工程水を連続的に金属表面に接触させたとき、その金
属表面に微生物が付着し、付着した金属表面が嫌気性雰
囲気となり、付着微生物中の嫌気性微生物が増殖し、有
機酸を分泌する結果、該金属表面に腐食が進行し腐食電
流が流れることを利用している。すなわち、その腐食電
流の大小でスライム付着状況を判断しようとするもので
ある。
According to the present invention, when process water such as white water or pulp slurry is continuously brought into contact with a metal surface, microorganisms adhere to the metal surface, the attached metal surface becomes an anaerobic atmosphere, and Utilizing the fact that anaerobic microorganisms proliferate and secrete organic acids, so that corrosion progresses on the metal surface and a corrosion current flows. That is, the state of slime adhesion is determined based on the magnitude of the corrosion current.

【0012】本発明のスライムモニター装置は、紙パル
プ製造工程から白水あるいはパルプスラリーを分岐し
て、指示電極と参照電極を取り付けたパイプに流し、該
電極間電位差をもって該工程のスライムの発生状況を知
ることができるようにしている。
The slime monitoring apparatus of the present invention divides white water or pulp slurry from a paper pulp manufacturing process, flows the pulp slurry through a pipe provided with an indicator electrode and a reference electrode, and monitors the slime generation status in the process based on the potential difference between the electrodes. So that you can know.

【0013】本発明における指示電極は、ステンレス電
極と銀電極からなっている。ステンレス電極は、スライ
ムを付着し易くするように、例えばステンレスワイヤー
を網状、コイル状とした、あるいはステンレス表面に多
数の溝や凹凸を持つ板状、パイプ状、棒状等の形態にし
たものである。網状、コイル状または表面の溝や凹凸の
大きさ、凹凸の程度は特に限定されるものではないが、
例えば網状のものとしては、ステンレス金網を円筒状あ
るいは板状にしたもので、20メッシュ以上の目の細か
さが好ましく、さらに好ましくは40〜200メッシ
ュ、より好ましくは60〜150メッシュのものある。
コイル状に巻いたものしては、直径0.1〜1mmのス
テンレスワイヤーをステンレス、ガラスあるいはアクリ
ルなど任意の棒、パイプあるいは円筒に密に巻いたもの
が挙げられる。板状、パイプ状、棒状の場合、その表面
を粗に加工したものであり、特に棒状の場合には表面に
約0.1〜5.0mm、さらに好ましくは0.5〜2.
0mmピッチの細目のねじ切りを行い凹凸にしたものな
どがある。このようにスライムを付着し易くするために
表面を粗にするのはステンレス電極全体に及ぶ必要はな
く、ステンレス電極の一部で十分である。
The indicator electrode in the present invention comprises a stainless steel electrode and a silver electrode. The stainless steel electrode is, for example, a stainless wire formed into a net shape, a coil shape, or a plate shape having a large number of grooves or irregularities on the stainless steel surface, a pipe shape, a rod shape, or the like so as to easily attach the slime. . The size of the mesh, the shape of the grooves or irregularities on the surface of the coil or the surface, the degree of the irregularities is not particularly limited,
For example, as the mesh-like thing, a stainless steel mesh is formed into a cylindrical shape or a plate-like shape, and preferably has a fineness of 20 mesh or more, more preferably 40 to 200 mesh, more preferably 60 to 150 mesh.
Examples of the coil-shaped coil include a coil in which a stainless steel wire having a diameter of 0.1 to 1 mm is densely wound around any rod, pipe, or cylinder such as stainless steel, glass, or acrylic. In the case of a plate, pipe, or rod, the surface is roughly processed. In the case of a rod, the surface is preferably about 0.1 to 5.0 mm, more preferably 0.5 to 2.
There is a method in which fine threads are cut at a pitch of 0 mm to form irregularities. It is not necessary that the surface of the stainless steel electrode is roughened so that the slime can be easily attached to the entire surface of the stainless steel electrode, and a part of the stainless steel electrode is sufficient.

【0014】本発明におけるステンレス電極の大きさ
は、パイプ内のステンレス電極によってパイプ内の流れ
に不均一性が生じなければ、特に限定されるのもではな
い。例えば棒状の場合は、直3〜10cmで長さが5
〜15cm程度であり、網状の場合、網の部分の大きさ
5〜15cm×5〜15cmのものを丸めて円筒状にし
たものが好ましい。
The size of the stainless steel electrode in the present invention is not particularly limited as long as the stainless steel electrode in the pipe does not cause a non-uniform flow in the pipe. For example, in the case of rod-shaped, the length in diameter 3 to 10 cm 5
In the case of a net, it is preferable that a net having a size of 5 to 15 cm × 5 to 15 cm is rounded into a cylindrical shape.

【0015】本発明に使用するステンレスの材質は、S
US−201、SUS−302、SUS−304、SU
S−316、SUS−317などがあり、価格、加工
性、入手のしやすさから、SUS−304、SUS−3
16が好ましい。
The material of stainless steel used in the present invention is S
US-201, SUS-302, SUS-304, SU
S-316, SUS-317, etc., from the viewpoint of price, processability, and availability, SUS-304, SUS-3
16 is preferred.

【0016】本発明の指示電極における銀電極は、市販
のものが使用でき、例えば東亜電波工業(株)製「TYP
E HA−101」が挙げられる。
As the silver electrode in the indicator electrode of the present invention, a commercially available silver electrode can be used. For example, "TYP" manufactured by Toa Denpa Kogyo KK
E HA-101 ".

【0017】本発明における参照電極は、銀電極と白金
電極との組み合わせである。銀電極、白金電極のそれぞ
れは市販のものが使用でき、銀電極は指示電極に用いた
ものと同じでよく、白金電極は例えば東亜電波工業(株)
製「TYPE HP−105」が挙げられる。
The reference electrode in the present invention is a combination of a silver electrode and a platinum electrode. The silver electrode and the platinum electrode can each be a commercially available one, the silver electrode may be the same as that used for the indicator electrode, and the platinum electrode is, for example, Toa Denpa Kogyo Co., Ltd.
Manufactured by TYPE HP-105.

【0018】参照電極に用いる電極は、銀・塩化銀電
極、水素電極、甘コウ電極、硫酸第一水銀電極、酸化水
銀電極なども使用可能であるが、取り扱いが簡単な点
で、白金電極−銀電極の組合せが最も適している。
As the electrode used as the reference electrode, a silver / silver chloride electrode, a hydrogen electrode, a sweet kou electrode, a mercuric sulfate electrode, a mercury oxide electrode, and the like can be used. The combination of silver electrodes is most suitable.

【0019】図1はスライムモニター装置を例示した略
図であって、ステンレス電極(2)と銀電極(4)を組み合
わせた指示電極、および銀電極(5)と白金電極(6)を組
合せた参照電極は、同じパイプ内であるアクリル製逆L
字円筒パイプ(7)内に設置する。該パイプ(7)の被測定
液流入口(1)および流出口(8)のそれぞれの端部はフラ
ンジ部(9)を形成している。
FIG. 1 is a schematic view illustrating a slime monitoring device, in which an indicator electrode combining a stainless steel electrode (2) and a silver electrode (4) and a reference electrode combining a silver electrode (5) and a platinum electrode (6). The electrode is an acrylic inverted L in the same pipe.
It is set in a cylindrical pipe (7). The ends of the liquid inlet (1) and the outlet (8) of the liquid to be measured of the pipe (7) form a flange (9).

【0020】ステンレス電極(2)の設置は、被測定液流
入口(1)からの円筒パイプ(7)(外径:50mm、肉
厚:3mm、長さ:400mm)内の白水やパルプスラ
リーの流れに沿ってパイプ軸と平行に取り付けるのが好
ましく、パイプ内の流れに不均一性が生じないように留
意すれば、特に限定されるものではない。指示電極を構
成する銀電極(4)はパイプに対し垂直に挿入し、ステン
レス電極スライム付着部分(3)表面と銀電極(4)の先端
との間隔は、約2〜5mmとして設置する。
The stainless steel electrode (2) is installed by removing white water or pulp slurry in a cylindrical pipe (7) (outer diameter: 50 mm, wall thickness: 3 mm, length: 400 mm) from the liquid inlet (1) to be measured. It is preferable to mount the pipe in parallel with the pipe axis along the flow, and there is no particular limitation as long as care is taken not to cause non-uniformity in the flow in the pipe. The silver electrode (4) constituting the indicator electrode is inserted perpendicular to the pipe, and the interval between the surface of the stainless electrode slime attachment portion (3) and the tip of the silver electrode (4) is set to about 2 to 5 mm.

【0021】参照電極の銀電極(5)と白金電極(6)の設
置は、図1に示すように、双方がパイプの表面から垂直
にパイプ軸方法に突き刺すように設置し、パイプ軸付近
でその先端が互いに約2〜10mm離れるように設置す
る。
As shown in FIG. 1, the silver electrode (5) and the platinum electrode (6) as the reference electrodes are installed so that both of them are pierced vertically from the surface of the pipe by the pipe axis method. They are installed such that their tips are separated from each other by about 2 to 10 mm.

【0022】指示電極と参照電極との間の距離は同一水
系内であれば、特に限定されるものではないが、水系の
電気抵抗や、パイプ内の流れの影響を考慮すると、20
cm以下、好ましくは15〜2cmである。これより大
きく離れていると、感度が鈍くなり、実用上好ましくな
い。また、1cm以下では、パルプスラリーの詰まりが
多くなり、実用的ではない。
The distance between the indicator electrode and the reference electrode is not particularly limited as long as the distance is within the same water system.
cm or less, preferably 15 to 2 cm. If the distance is larger than this, the sensitivity becomes dull, which is not preferable for practical use. If it is 1 cm or less, clogging of the pulp slurry increases, which is not practical.

【0023】本発明のスライムモニター装置に使用する
パイプの径は、特に限定されないが、パイプ内の滞留や
沈殿物の発生・堆積を避けるためには、直径3〜10c
mが好ましい。また、電極がパイプ外部より観察できる
ように透明のパイプを使用するのが好ましいが、不透明
のパイプを用いる場合には電極部に観察窓を設置し中の
状況が観察出来るようにする。もし電極部にパルプなど
の固形物が付着しているときは、小さなブラシなどで取
り除く。この掃除のために電極部周辺に掃除用のネジ込
み式の窓(図1では(10))を付けておくことが好まし
い。使用するパイプの材質は、ステンレス、ガラス、塩
化ビニル、アクリル等、特に限定されないが、加工性、
強度、外部からの観察が容易なこと等の理由からアクリ
ルが好ましく使用される。
The diameter of the pipe used in the slime monitoring device of the present invention is not particularly limited. However, in order to avoid stagnation in the pipe and generation and accumulation of sediment, the diameter is 3 to 10 c.
m is preferred. It is preferable to use a transparent pipe so that the electrodes can be observed from the outside of the pipe. However, when an opaque pipe is used, an observation window is provided in the electrode section so that the situation inside can be observed. If solid matter such as pulp adheres to the electrode part, remove it with a small brush or the like. For this cleaning, it is preferable to provide a screw-in window ((10) in FIG. 1) for cleaning around the electrode portion. The material of the pipe to be used is not particularly limited, such as stainless steel, glass, vinyl chloride, and acrylic.
Acrylic is preferably used because of its strength and easy observation from the outside.

【0024】本発明のスライムモニター装置のパイプに
流入する白水あるいはパルプスラリーの流量は、線速度
にして0.05〜15cm/秒、好ましくは、0.2〜
10cm/秒、より好ましくは0.5〜5cm/秒であ
る。5cm/秒以下の線速度では、白水あるいはパルプ
スラリー中の固形物が電極に付着し正確な測定値が得ら
れない。また、線速度が15cm/秒以上ではステンレ
ス電極に付着したスライムが、流入水によって剥離する
ことがあり、長期的なモニタリングができず、好ましく
ない。
The flow rate of the white water or the pulp slurry flowing into the pipe of the slime monitor of the present invention is 0.05 to 15 cm / sec in linear velocity, preferably 0.2 to 15 cm / sec.
It is 10 cm / sec, more preferably 0.5 to 5 cm / sec. At a linear velocity of 5 cm / sec or less, white water or solid matter in the pulp slurry adheres to the electrode, and an accurate measured value cannot be obtained. On the other hand, if the linear velocity is 15 cm / sec or more, the slime adhered to the stainless steel electrode may be peeled off by the inflow water, so that long-term monitoring cannot be performed, which is not preferable.

【0025】スライムモニターに流入するパルプスラリ
ーのパルプ濃度は、1.0重量%以下、好ましくは0.
5重量%以下が好ましい。1.0重量%を越えると電極
にパルプが詰まり、正確な測定ができない。
The pulp slurry flowing into the slime monitor has a pulp concentration of 1.0% by weight or less, preferably 0.1% by weight or less.
It is preferably at most 5% by weight. If it exceeds 1.0% by weight, the electrode will be clogged with pulp, making accurate measurement impossible.

【0026】本発明のスライムモニター装置において、
白水、あるいはパルプスラリーの流れの方向は、水平方
向、垂直方向のどちらでもよいが、混入してきた空気の
蓄積を避けるために、電極の設置部分を垂直方向に対し
5〜45度の傾斜をつけることが好ましいことがある。
電極部分に空気が蓄積すると電位が安定しなく、スライ
イムモニターの信頼性に欠けることとなる。
In the slime monitor of the present invention,
The direction of the flow of the white water or pulp slurry may be either the horizontal direction or the vertical direction, but in order to avoid accumulation of air that has entered, the installation portion of the electrode is inclined at 5 to 45 degrees with respect to the vertical direction. May be preferred.
If air accumulates in the electrode portion, the potential will not be stable, and the slime monitor will lack reliability.

【0027】本発明において、参照電極と指示電極の電
位差の読み取りは、該電位差に見合った電位計を用いれ
ばよく、特に限定されるものではないが、通常の場合そ
の電位差は+500mV〜−500mVである。
In the present invention, the reading of the potential difference between the reference electrode and the indicator electrode may be performed by using an electrometer corresponding to the potential difference, and is not particularly limited. In a normal case, the potential difference is +500 mV to -500 mV. is there.

【0028】本発明のもう一つの実施の態様は、前述の
スライムモニター装置における指示電極と参照電極の電
極間電位差と、スライムコントロール剤の注入量を連結
させることにより、該スライムコントロール剤注入量を
制御することである。
In another embodiment of the present invention, the injection amount of the slime control agent is reduced by connecting the potential difference between the indicator electrode and the reference electrode in the slime monitor device and the injection amount of the slime control agent. It is to control.

【0029】本発明のスライムモニター装置における指
示電極と参照電極の電極間電位差は、系中にスライムが
発生し、ステンレス電極にスライムが付着すると電流が
流れ、該電位差が大きくなることである。そこで、電位
差が予め設定した値以上に大きくなったときスライムコ
ントロール剤の注入を行い、また設定値以下となったと
きスライムコントロール剤の注入を止めることによるス
ライムコントロール剤の注入制御、あるいは該電位差の
値と比例的にスライムコントロール剤注入量を制御する
ことができる。スライムコントロール剤の注入量は用い
るスライムコントロール剤の種類、工程の状況などを考
慮し経験的に決定される。
The potential difference between the indicator electrode and the reference electrode in the slime monitor of the present invention is that slime is generated in the system, and when slime adheres to the stainless steel electrode, a current flows and the potential difference increases. Therefore, injection of the slime control agent is performed when the potential difference becomes greater than or equal to a preset value, and injection control of the slime control agent by stopping the injection of the slime control agent when the potential difference becomes less than or equal to the set value. The injection amount of the slime control agent can be controlled in proportion to the value. The injection amount of the slime control agent is empirically determined in consideration of the type of the slime control agent used, the state of the process, and the like.

【0030】スライムモニター装置に導入される白水あ
るいはパルプスラリーは、スライムトラブルとなる箇所
の白水あるいはパルプスラリーであり、例えば、マシン
白水、ワイヤーピット白水、ストックインレットスラリ
ーなどがある。これらをバイパスを造ってモニタリング
装置に導入し、指示電極と参照電極の電位差の経時変化
をレコーダーに記録していく。スライムが付着していな
いときの電位差は、個々の抄紙機や白水、パルプスラリ
ーによって異なるため、一概に決めることはできない
が、スライムモニター装置を作動させた時の電位差:V
o=(指示電極電位)−(参照電極電位)を基準とすれ
ば、白水、パルプスラリーを流すことによってステンレ
ス電極にスライムの付着が起こり、微生物の増殖による
腐食電流が発生するようになると、指示電極電位V1が
徐々に増加し始める。V1が、Voよりも約50〜10
0mV以上の大きさになり、この時はスライムトラブル
の危険性が高いと判断され、スライムコントロール剤の
増添あるいはより有効なスライムコントロール剤への切
り替えが、必要になった時となる。ここで、スラムコン
トロール剤を増添あるいはより有効な薬剤に変えるとV
1は、急速にVoに近い値まで低下し、スライムを抑制
したことを示す。V1の低下が少ないときは、薬剤を添
加しても増殖傾向にあるスライムの増殖を抑制できなか
ったか、あるいは殺菌できなかったことを示している。
The white water or pulp slurry introduced into the slime monitoring device is white water or pulp slurry at a location where slime trouble occurs, such as machine white water, wire pit white water, or stock inlet slurry. These are made into a bypass and introduced into a monitoring device, and the change over time in the potential difference between the indicator electrode and the reference electrode is recorded on a recorder. The potential difference when no slime adheres depends on the individual paper machine, white water, and pulp slurry, and cannot be unconditionally determined. However, the potential difference when the slime monitoring device is operated: V
When o = (indicating electrode potential)-(reference electrode potential) is used as a reference, slime adheres to the stainless steel electrode by flowing white water and pulp slurry, and a corrosive current is generated by the growth of microorganisms. The electrode potential V1 starts to gradually increase. V1 is about 50 to 10 more than Vo
It becomes 0 mV or more. At this time, it is determined that there is a high risk of slime trouble, and it is necessary to add a slime control agent or switch to a more effective slime control agent. Here, when the slam control agent is added or changed to a more effective agent, V
1 indicates that the value rapidly decreased to a value close to Vo and slime was suppressed. When the decrease in V1 is small, it indicates that the growth of the slime, which tends to proliferate, could not be suppressed or sterilization could not be performed even when the drug was added.

【0031】[0031]

【実施例】以下に実施例によって本発明を詳細に説明す
るが、本発明はこれに制限されるものではない。
The present invention will be described in detail with reference to the following Examples, but it should not be construed that the present invention is limited thereto.

【0032】なお、実施例において使用したスライムモ
ニター装置は図1におけるステンレス電極(2)は直径
1.3cm、長さが18cmで、先端部分より5cmの
ところまで1mmのピッチ幅でネジを切った形態のSU
S−304からなり、銀電極(4)と白金電極(6)はそれ
ぞれ東亜電波工業(株)製「TYPE HA−101」、
「TYPE HP−105」を使用した。ステンレス電
極(2)の先端と銀電極(4)の先端との間隔および銀電極
(4)の先端と白金電極(6)の先端との間隔は、それぞれ
5mm、5mmとし、そして指示電極と参照電極との間
の距離は7cmとして設置した。
In the slime monitoring device used in the examples, the stainless steel electrode (2) in FIG. 1 was 1.3 cm in diameter, 18 cm in length, and was threaded at a pitch of 1 mm up to 5 cm from the tip. SU in form
S-304, the silver electrode (4) and the platinum electrode (6) were respectively “TYPE HA-101” manufactured by Toa Denpa Kogyo Co., Ltd.
"TYPE HP-105" was used. Spacing between tip of stainless steel electrode (2) and tip of silver electrode (4) and silver electrode
The distance between the tip of (4) and the tip of the platinum electrode (6) was 5 mm and 5 mm, respectively, and the distance between the indicator electrode and the reference electrode was 7 cm.

【0033】[実施例1]生産量300トン/日の中質
紙の製造ラインにおいて、ワイヤー下白水ピット、マシ
ンテェストにスライムコントロール剤を添加してスラム
イムコントロールを行っている中性抄紙機の白水循環ラ
インから白水を一部分岐し、上記したスライムモニター
装置に線速度5cm/秒で流した。この時の電位差(m
v)と菌数(個/ml)の推移を図2に、電位差(m
v)と成紙斑点数・欠点数(個/日)の推移を図3に示
した。
Example 1 In a medium paper production line with a production volume of 300 tons / day, a slime control agent was added to a white water pit and a machine test under a wire to control slime control in a neutral paper machine. Part of the white water was branched off from the circulation line and flowed at a linear velocity of 5 cm / sec into the slime monitor described above. At this time, the potential difference (m
v) and changes in the number of bacteria (cells / ml) are shown in FIG.
FIG. 3 shows changes in v) and the number of spots on paper and the number of defects (pieces / day).

【0034】この結果、本発明のスライムモニター装置
の電位差と、白水中の菌数、さらに製造された紙の成紙
斑点数・欠点数に大きな相関関係が認められ、水系中の
スライムの増殖状況の状況を十分に把握することができ
ることが示された。
As a result, a large correlation was found between the potential difference of the slime monitor of the present invention, the number of bacteria in the white water, and the number of formed spots and defects on the manufactured paper. It was shown that the situation could be fully understood.

【0035】[0035]

【発明の効果】以上説明したように本発明により、紙パ
ルプ製造工程における白水あるいはパルプスラリー中の
スライムの発生状況を連続的に評価できるようになり、
かつスライムモニター装置の指示とスライムコントロー
ル剤の注入量制御装置を連結することにより該工程のス
ライムコントロールは極めて容易、確実となる。
As described above, according to the present invention, it is possible to continuously evaluate the occurrence of slime in white water or pulp slurry in the paper pulp manufacturing process.
In addition, by connecting the instruction of the slime monitoring device and the device for controlling the injection amount of the slime control agent, the slime control in this step becomes extremely easy and reliable.

【図面の簡単な説明】[Brief description of the drawings]

【図1】 スライムモニター装置を例示する図面。FIG. 1 is a drawing illustrating a slime monitor device.

【図2】 スライムモニター装置の電位差と白水中の菌
数の推移を示す図面。
FIG. 2 is a drawing showing changes in the potential difference of the slime monitor device and the number of bacteria in white water.

【図3】 スライムモニター装置の電位差と成紙斑点数
・欠点数の推移を示す図面。
FIG. 3 is a drawing showing changes in the potential difference of the slime monitor device and the number of spots on paper and the number of defects.

【符号の説明】[Explanation of symbols]

(1) 被測定液流入口 (2) 指示電極を構成するステンレス電極 (3) 指示電極を構成するステンレス電極スライム付着
部分 (4) 指示電極を構成する銀電極 (5) 参照電極を構成する銀電極 (6) 参照電極を構成する白金電極 (7) アクリル製円筒(外径:50mm、肉厚:3m
m、長さ:400mm) (8) 被測定液流出口 (9) フランジ部 (10) 掃除のための窓
(1) Inflow port of liquid to be measured (2) Stainless steel electrode constituting indicator electrode (3) Stainless steel electrode slime attachment part constituting indicator electrode (4) Silver electrode constituting indicator electrode (5) Silver constituting reference electrode Electrode (6) Platinum electrode constituting reference electrode (7) Acrylic cylinder (outer diameter: 50 mm, wall thickness: 3 m)
(8) Measuring liquid outlet (9) Flange (10) Window for cleaning

───────────────────────────────────────────────────── フロントページの続き (72)発明者 高橋 秀樹 愛媛県伊予三島市中曽根町1727−1 伯東 株式会社四国営業所内 ──────────────────────────────────────────────────の Continued on the front page (72) Inventor Hideki Takahashi 1727-1 Nakasone-cho, Iyo-Mishima-shi, Ehime Prefecture Hakuto Shikoku Sales Office

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 スライムを付着し易くするようにステン
レスワイヤーを網状、コイル状とした、あるいはステン
レス表面に多数の溝や凹凸を持つ板状、パイプ状、棒状
を含む適当な形態をしたステンレスを一つの電極とし、
これを銀電極と組合せて指示電極とし、一方白金電極と
銀電極を組合せて参照電極とし、これら両電極を同じパ
イプ内に設置してなるスライムモニター装置に、紙パル
プ製造工程における白水あるいはパルプスラリーを流通
させてなる、該指示電極と該参照電極の電極間電位差か
ら紙パルプ製造工程のスライム発生状況を評価する方
法。
1. A stainless steel wire having a mesh shape or a coil shape so as to easily attach slime, or a stainless steel wire having a suitable shape including a plate shape, a pipe shape, and a rod shape having a large number of grooves and irregularities on the surface of the stainless steel. One electrode,
This is combined with a silver electrode to form an indicator electrode, while a platinum electrode and a silver electrode are combined to form a reference electrode, and a slime monitor device in which these two electrodes are installed in the same pipe is used for white water or pulp slurry in the paper pulp manufacturing process. And evaluating the slime generation status in the paper pulp manufacturing process from the potential difference between the indicator electrode and the reference electrode.
【請求項2】 指示電極と参照電極を設置したパイプ内
を白水あるいはパルプスラリーを0.2〜10cm/s
の線速度で流通させてなる、請求項1記載のスライム発
生状況を評価する方法。
2. The inside of a pipe in which an indicator electrode and a reference electrode are installed is filled with white water or pulp slurry at a rate of 0.2 to 10 cm / s.
The method for evaluating a slime generation state according to claim 1, wherein the slime is distributed at a linear velocity of:
【請求項3】 請求項1または2における指示電極と参
照電極の電極間電位差と、スライムコントロール剤の注
入装置を連結させることにより、該電極間電位差により
該スライムコントロール剤注入量を制御することを特徴
とする紙パルプ製造工程のスライムコントロール方法。
3. The method according to claim 1 or 2, wherein the potential difference between the indicator electrode and the reference electrode is connected to a slime control agent injection device so that the injection amount of the slime control agent is controlled by the potential difference between the electrodes. A slime control method for the paper pulp manufacturing process, which is a feature.
JP18516097A 1997-07-10 1997-07-10 Method for evaluating slime generation in paper pulp manufacturing process and slime control method Expired - Fee Related JP3859309B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP18516097A JP3859309B2 (en) 1997-07-10 1997-07-10 Method for evaluating slime generation in paper pulp manufacturing process and slime control method

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Application Number Priority Date Filing Date Title
JP18516097A JP3859309B2 (en) 1997-07-10 1997-07-10 Method for evaluating slime generation in paper pulp manufacturing process and slime control method

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Publication Number Publication Date
JPH1128474A true JPH1128474A (en) 1999-02-02
JP3859309B2 JP3859309B2 (en) 2006-12-20

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ID=16165890

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Country Link
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2001059442A1 (en) * 2000-02-14 2001-08-16 Kurita Water Industries Ltd. Water-based water treatment method
JP2001348797A (en) * 2000-03-31 2001-12-21 Somar Corp Method for carrying out slime control of white water
JP2006346640A (en) * 2005-06-20 2006-12-28 Kurita Water Ind Ltd Determination method of slime control effect and slime control method
JP2009236715A (en) * 2008-03-27 2009-10-15 Kurita Water Ind Ltd Slime monitor, slime monitoring method and control method
JP2010115617A (en) * 2008-11-14 2010-05-27 Kurita Water Ind Ltd Method of controlling oxidizing agent concentration, method of controlling water based treating agent concentration using the control method, and method of sterilizing water base

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2001059442A1 (en) * 2000-02-14 2001-08-16 Kurita Water Industries Ltd. Water-based water treatment method
US6451212B2 (en) 2000-02-14 2002-09-17 Kurita Water Industries Ltd. Method of treating water in a water system
JP2001348797A (en) * 2000-03-31 2001-12-21 Somar Corp Method for carrying out slime control of white water
JP2006346640A (en) * 2005-06-20 2006-12-28 Kurita Water Ind Ltd Determination method of slime control effect and slime control method
JP2009236715A (en) * 2008-03-27 2009-10-15 Kurita Water Ind Ltd Slime monitor, slime monitoring method and control method
JP2010115617A (en) * 2008-11-14 2010-05-27 Kurita Water Ind Ltd Method of controlling oxidizing agent concentration, method of controlling water based treating agent concentration using the control method, and method of sterilizing water base

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