JP3267779B2 - Electrochemical sterilizer and sterilization method using the same - Google Patents
Electrochemical sterilizer and sterilization method using the sameInfo
- Publication number
- JP3267779B2 JP3267779B2 JP34070193A JP34070193A JP3267779B2 JP 3267779 B2 JP3267779 B2 JP 3267779B2 JP 34070193 A JP34070193 A JP 34070193A JP 34070193 A JP34070193 A JP 34070193A JP 3267779 B2 JP3267779 B2 JP 3267779B2
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- Japan
- Prior art keywords
- electrodes
- water
- activated carbon
- pair
- electrode
- 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.)
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Description
【0001】[0001]
【産業上の利用分野】本発明は家庭用、業務用などの浄
水器に好適に使用される電気化学的殺菌装置およびそれ
を用いた殺菌方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrochemical sterilizing apparatus suitably used for water purifiers for home use and business use, and a sterilizing method using the same.
【0002】[0002]
【従来の技術】近年、水道水中の塩素臭を除去するた
め、活性炭を用いた種々の浄水器が利用されている。し
かしながら、この浄水器は、殺菌を目的として投与され
た塩素を吸着除去するため、逆に大腸菌などの細菌が浄
水器の活性炭に付着し、殺菌されることなく増殖し、飲
料水中に流出する虞がある。2. Description of the Related Art In recent years, various water purifiers using activated carbon have been used to remove chlorine odor in tap water. However, since this water purifier absorbs and removes chlorine administered for the purpose of sterilization, bacteria such as Escherichia coli may conversely adhere to activated carbon of the water purifier, grow without being sterilized, and flow out into drinking water. There is.
【0003】上記の点に鑑み、活性炭の下流側に、大腸
菌などの細菌を濾過する中空糸膜を配置した浄水器や、
活性炭に殺菌用銀を添着した浄水器が提案されている。
しかしながら、前者の浄水器では、中空糸膜で大腸菌な
どを濾過するので、大腸菌の総量は基本的には減少せ
ず、また後者の浄水器では、銀が飲料水中に溶出するな
どの問題がある。[0003] In view of the above, a water purifier having a hollow fiber membrane for filtering bacteria such as Escherichia coli downstream of activated carbon,
A water purifier in which activated carbon is impregnated with silver for sterilization has been proposed.
However, the former water purifier filters E. coli and the like with a hollow fiber membrane, so the total amount of E. coli does not basically decrease, and the latter purifier has problems such as elution of silver into drinking water. .
【0004】一方、粒状活性炭に電圧を印加することに
より、吸着された大腸菌を電気化学的に殺菌する方法が
提案されている(特開平1−99684号公報、T. Mat
sunaga., et al., Appl. Microbiol. 54, 1330-1333 (1
988))。この方法によると、一対の電極に電圧を印加す
ることにより、電気化学的作用により活性炭層に付着し
た大腸菌などの細菌を殺菌し、浄化水を系外に流出する
ことができる。On the other hand, there has been proposed a method of electrochemically sterilizing adsorbed Escherichia coli by applying a voltage to granular activated carbon (JP-A-1-99684, T. Mat.
sunaga., et al., Appl. Microbiol. 54, 1330-1333 (1
988)). According to this method, by applying a voltage to the pair of electrodes, bacteria such as Escherichia coli adhered to the activated carbon layer by the electrochemical action can be sterilized, and purified water can flow out of the system.
【0005】本出願人は、実公平5−9117号公報に
おいて、非接触状態で配設され、かつ電圧が印加される
一対の電極を、活性炭素繊維を含む抄紙構造を有する通
水性吸着材で形成し、一対の電極間に、前記通水性吸着
材を透過した処理液の流路が形成された電気化学的殺菌
装置について提案した。この装置では、接触割合の小さ
な粒状活性炭で活性炭層を構成した前記の装置と異な
り、一対の電極間に電圧を均一に印加して、均一な電場
を形成でき、殺菌効率が高いという利点がある。[0005] In Japanese Utility Model Publication No. 5-9117, the present applicant discloses that a pair of electrodes provided in a non-contact state and to which a voltage is applied are formed of a water-permeable adsorbent having a papermaking structure containing activated carbon fibers. The present invention proposes an electrochemical sterilization apparatus in which a flow path of a treatment liquid that has been formed and that has passed through the water-permeable adsorbent is formed between a pair of electrodes. In this device, unlike the device in which the activated carbon layer is formed of granular activated carbon having a small contact ratio, there is an advantage that a uniform electric field can be formed by uniformly applying a voltage between a pair of electrodes, and sterilization efficiency is high. .
【0006】しかし、このような装置を用いて長期間に
亘って殺菌処理すると、電圧を印加しても殺菌効率が低
下することが判明した。However, it has been found that sterilization over a long period of time using such a device results in a reduction in sterilization efficiency even when a voltage is applied.
【0007】[0007]
【発明が解決しようとする課題】従って、本発明の目的
は、微生物による殺菌効率の低下を検出し、殺菌効率を
維持する上で有用な電気化学的殺菌装置およびそれを用
いた殺菌方法を提供することにある。SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an electrochemical sterilizing apparatus useful for detecting a decrease in sterilization efficiency by microorganisms and maintaining the sterilization efficiency, and a sterilization method using the same. Is to do.
【0008】本発明の他の目的は、微生物の堆積を検出
できるとともに、長期間に亘り高い殺菌効率を維持でき
る電気化学的殺菌装置およびそれを用いた殺菌方法を提
供することにある。Another object of the present invention is to provide an electrochemical sterilizer capable of detecting the accumulation of microorganisms and maintaining a high sterilization efficiency for a long period of time, and a sterilization method using the same.
【0009】本発明のさらに他の目的は、臭気成分など
も効率よく吸着除去できるとともに、電極を非接触状態
に維持しつつ、均一な電場を形成し、微生物を殺菌でき
る電気化学的殺菌装置およびそれを用いた殺菌方法を提
供することにある。Still another object of the present invention is to provide an electrochemical sterilizer capable of efficiently adsorbing and removing odor components and the like, forming a uniform electric field and sterilizing microorganisms while maintaining electrodes in a non-contact state. It is to provide a sterilization method using the same.
【0010】[0010]
【課題を解決するための手段】本発明者らは、前記目的
を達成するため鋭意検討の結果、通水性吸着材で構成さ
れた電極において微生物が堆積すると、一対の電極間の
電気抵抗値及び電流値が変動することを見いだし、本発
明を完成した。Means for Solving the Problems The present inventors have made intensive studies to achieve the above object, and as a result, when microorganisms accumulate on an electrode composed of a water-permeable adsorbent, the electric resistance value between the pair of electrodes and The inventors found that the current value fluctuated, and completed the present invention.
【0011】すなわち、本発明の電気化学的殺菌装置
は、電圧が印加される少なくとも一対の電極が、非接触
状態で配設され、前記一対の電極のうち少なくとも一方
の電極が、活性炭素繊維又は粉粒状活性炭を含む通水性
吸着材で形成された殺菌装置であって、前記通水性吸着
材で形成された電極の一方の側から被処理液を供給する
ための流路と、他方の側へ透過した処理液の流路とが形
成されているとともに、前記一対の電極間の電気抵抗値
又は電流値を検出するための検出手段と、この検出手段
からの検出値と、被処理液の処理に伴って変化する電気
抵抗値又は電流値に関する基準値とを比較するための比
較手段と、この比較手段による比較結果に基づいて、被
処理液の流路を切換え、通水性吸着材を逆洗するための
制御手段とを備えている。この装置において、一対の電
極のうち少なくとも一方の電極が、活性炭素繊維を含
み、抄紙構造を有する通水性吸着材で形成されていても
よく、一対の電極間に、前記通水性吸着材を透過した処
理液の流路が形成されていてもよい。That is, in the electrochemical sterilization apparatus of the present invention, at least one pair of electrodes to which a voltage is applied is disposed in a non-contact state, and at least one of the pair of electrodes is activated carbon fiber or A sterilizer formed of a water-permeable adsorbent containing powdered granular activated carbon, wherein the water-permeable adsorbent is used.
The liquid to be treated from one side of the electrode formed of the material
Flow path and the processing liquid flow path that has permeated to the other side
Together have been made, and detecting means for detecting the electrical resistance or the current value between the pair of electrodes, the detecting means
And the electricity that changes with the treatment of the liquid to be treated
Ratio for comparing with a reference value for resistance or current value
Based on the comparison result obtained by the comparing means and the comparing means.
For switching the flow path of the processing solution and backwashing the water-permeable adsorbent
Control means . In this device, at least one electrode of the pair of electrodes may be formed of a water-permeable adsorbent containing activated carbon fibers and having a papermaking structure, and the water-permeable adsorbent may pass between the pair of electrodes. A flow path of the processed processing liquid may be formed.
【0012】また、本発明の殺菌方法では、電圧が印加
される少なくとも一対の電極を、非接触状態で配設さ
れ、前記一対の電極のうち少なくとも一方の電極を、活
性炭素繊維又は粉粒状活性炭を含む通水性吸着材で形成
した装置による殺菌方法であって、前記通水性吸着材で
形成された電極の一方の側から被処理液を供給し、他方
の側へ処理液を透過させるとともに、前記一対の電極間
の電気抵抗値又は電流値を検出手段により検出し、前記
検出手段による検出値と、被処理液の処理に伴って変化
する電気抵抗値又は電流値に関する基準値とを比較手段
により比較し、この比較手段による比較結果に基づい
て、制御手段により、被処理液の流路を切換え、通水性
吸着材を逆流洗浄する。[0012] In the sterilization method of the present invention, at least one pair of electrodes to which a voltage is applied is disposed in a non-contact state, and at least one of the pair of electrodes is activated carbon fiber or powdery activated carbon. a sterilizing method according to device formed in water-permeable adsorbent comprising, in the water permeability adsorbent
The liquid to be treated is supplied from one side of the formed electrode,
Together with transmitting the processing liquid to the side, is detected by the detection means and the electric resistance or a current value between the pair of electrodes, wherein
The value detected by the detection means changes with the treatment of the liquid to be treated
Means for comparing with a reference value relating to an electric resistance value or a current value
And based on the result of comparison by the comparing means.
Control means to switch the flow path of the liquid to be treated,
Backwash the adsorbent .
【0013】[0013]
【作用】上記構成の電気化学的殺菌装置によれば、非接
触状態で配設された一対の電極に電圧を印加しつつ、通
水性吸着材に被処理液を供給すると、大腸菌などの微生
物が通水過程で通水性吸着材に堆積し、電気抵抗値の低
下または電流値の増加が生じ、電圧を印加しても殺菌効
率が向上しなくなる。そこで、微生物の増殖や堆積度の
指標となる電気抵抗値又は電流値を検出手段により検出
し、検出手段による検出値を、電極の交換や、通水性吸
着材の逆流洗浄に利用することにより、通水性吸着材を
新鮮な電極として維持できる。According to the above-described electrochemical sterilizer, when the liquid to be treated is supplied to the water-permeable adsorbent while applying a voltage to the pair of electrodes disposed in a non-contact state, microorganisms such as Escherichia coli can be eliminated. It accumulates on the water-permeable adsorbent during the water-flowing process, causing a decrease in the electric resistance value or an increase in the current value, and the sterilization efficiency is not improved even when a voltage is applied. Therefore, by detecting the electrical resistance value or the current value that is an index of the growth and deposition degree of microorganisms by the detection means, by using the detection value by the detection means for electrode replacement or backwashing of the water-permeable adsorbent, The water-permeable adsorbent can be maintained as a fresh electrode.
【0014】[0014]
【実施例】以下に、添付図面を参照しつつ、本発明の実
施例をより詳細に説明する。Embodiments of the present invention will be described below in more detail with reference to the accompanying drawings.
【0015】図1は本発明の一実施例を示す概略断面斜
視図である。FIG. 1 is a schematic sectional perspective view showing an embodiment of the present invention.
【0016】この装置は、内筒と外筒とを構成し、かつ
同心円状に互いに離間して非接触状態に配設されている
一対の中空円筒状電極1a,1bを有している。一対の
中空円筒状電極1a,1b間には、流路が形成されてい
る。一対の中空円筒状電極1a,1bは、水道水中の塩
素などの臭気成分や細菌などを吸着するため、活性炭素
繊維を含む抄紙構造の通水性成形吸着材で形成されてい
る。This device has a pair of hollow cylindrical electrodes 1a and 1b which constitute an inner cylinder and an outer cylinder, and are arranged concentrically apart from each other and in a non-contact state. A channel is formed between the pair of hollow cylindrical electrodes 1a and 1b. The pair of hollow cylindrical electrodes 1a and 1b are formed of a papermaking structure water-permeable adsorbent containing activated carbon fibers for adsorbing odor components such as chlorine and bacteria in tap water and bacteria.
【0017】上記一対の電極1a,1bには、炭素繊維
製や金属製リード線などの導電性線材3を介して交流又
は直流電源2に接続されている。なお、活性炭素繊維を
含む抄紙構造の成形吸着材に、リード線などの導電性線
材3を埋め込み又は差込むことにより、電極1a,1b
と電源2とを容易に接続できる。The pair of electrodes 1a and 1b are connected to an AC or DC power supply 2 through a conductive wire 3 such as a carbon fiber or metal lead wire. The electrodes 1a, 1b are formed by embedding or inserting a conductive wire 3 such as a lead wire into a molded adsorbent having a papermaking structure containing activated carbon fibers.
And the power supply 2 can be easily connected.
【0018】一対の電極1a,1b間を電気的に絶縁す
るため、電極1a,1bの一方の端面開口部は、前記内
筒を構成する中空円筒状電極1aの中空部と対応する部
位に開口部を有する有孔シール部材4でシールされ、他
方の端面開口部は全面に亘りシール部材5で閉塞されて
いる。そのため、外筒を構成する電極1bの外方から各
電極1a,1bを通じて内筒を構成する電極1aの中空
部へ、またはそれとは逆方向へ、被処理液を流すことが
できる。なお、上記有孔シール部材4及びシール部材5
は、シリコーンゴムなどの電気絶縁性材料で形成され、
必要に応じて接着剤などを用いて前記中空円筒状電極1
a,1bの端面と固着できる。In order to electrically insulate between the pair of electrodes 1a and 1b, one end opening of each of the electrodes 1a and 1b is opened at a position corresponding to the hollow portion of the hollow cylindrical electrode 1a constituting the inner cylinder. The other end opening is closed by a seal member 5 over the entire surface. Therefore, the liquid to be treated can flow from the outside of the electrode 1b forming the outer cylinder to the hollow portion of the electrode 1a forming the inner cylinder through the electrodes 1a and 1b or in the opposite direction. The perforated sealing member 4 and the sealing member 5
Is formed of an electrically insulating material such as silicone rubber,
If necessary, the hollow cylindrical electrode 1 may be formed using an adhesive or the like.
a, 1b.
【0019】なお、陰極としての中空円筒状電極1a
は、導電性線材3によりポテンシオスタットPの陰極端
子に接続され、陽極としての中空円筒状電極1bは、導
電性線材3によりポテンシオスタットPの陽極端子に接
続されている。また、参照電極REは、導電性線材3に
よりポテンシオスタットPの参照極端子に接続されてい
る。The hollow cylindrical electrode 1a as a cathode
Is connected to the cathode terminal of the potentiostat P by a conductive wire 3, and the hollow cylindrical electrode 1 b as an anode is connected to the anode terminal of the potentiostat P by a conductive wire 3. The reference electrode RE is connected to a reference electrode terminal of the potentiostat P by a conductive wire 3.
【0020】そして、前記装置により殺菌処理すると、
微生物が通水性成形吸着材で構成された電極1a,1b
に堆積または増殖し、ポテンシオスタットPにより参照
電極REに対して所定の電圧を印加しても、殺菌効果が
次第に低下する。そこで、各電極1a,1b間の電流値
の増加を検出するため、陽極としての中空円筒状電極1
bとポテンシオスタットPの陽極端子を接続する導電性
線材3は、検出手段としての電流計Aに接続されてい
る。When sterilized by the above-mentioned device,
Electrodes 1a and 1b composed of microorganisms made of water-permeable molded adsorbent
Even if a predetermined voltage is applied to the reference electrode RE by the potentiostat P, the sterilizing effect gradually decreases. Therefore, in order to detect an increase in the current value between the electrodes 1a and 1b, a hollow cylindrical electrode 1 as an anode is used.
The conductive wire 3 that connects b to the anode terminal of the potentiostat P is connected to an ammeter A as detection means.
【0021】このような装置では、電流計Aにより検出
される電流値の増加の程度を観察し、電流値が所定の値
を越えたとき、電極1a,1bに堆積又は増殖した微生
物により殺菌効率が低下したことを判別できる。従っ
て、電流値を指標として、電極1a,1bを新たな通水
性成形吸着材と交換することにより、高い殺菌効率を維
持できる。また、電流値に基づいて、電極1a,1bを
逆流洗浄し、電極1a,1bを長期かつ有効に利用でき
る。In such a device, the degree of increase in the current value detected by the ammeter A is observed, and when the current value exceeds a predetermined value, the bactericidal efficiency is increased by microorganisms deposited or grown on the electrodes 1a and 1b. Can be determined to have decreased. Therefore, high sterilization efficiency can be maintained by replacing the electrodes 1a and 1b with a new water-permeable molded adsorbent using the current value as an index. Further, the electrodes 1a and 1b are backwashed based on the current value, and the electrodes 1a and 1b can be used effectively for a long time.
【0022】また、前記殺菌装置によれば、外筒を構成
する電極1bの外方から内筒を構成する電極1aの中空
部へ、またはそれとは逆方向へ、水道水などの被処理水
が通過する過程で、被処理水に含まれる塩素などの臭気
成分や大腸菌などの微生物を効率よく吸着できる。特
に、活性炭素繊維を含み抄紙構造を有する通水性吸着材
で形成された電極1a,1bは、吸着能が著しく大きな
活性炭素繊維が互いに結束し、組織が緻密で密度及び機
械的強度が大きいという特色がある。そのため、活性炭
素繊維の高い吸着能と、通水性吸着材の緻密な組織によ
り、前記通水性吸着材を通過し、前記流路に至る通水過
程で、被処理液中の臭気成分や微生物を吸着できる。さ
らに、被処理液を供給したり、逆流洗浄しても通水性吸
着材を構成する活性炭素繊維の充填状態が変動したり、
密度むらが生じることがない。また、粒状活性炭に比べ
て、活性炭素繊維同士の接触割合が著しく大きいという
特徴がある。Further, according to the sterilizer, water to be treated such as tap water is supplied from the outside of the electrode 1b constituting the outer cylinder to the hollow portion of the electrode 1a constituting the inner cylinder or in the opposite direction. During the passage, odor components such as chlorine contained in the water to be treated and microorganisms such as Escherichia coli can be efficiently adsorbed. In particular, the electrodes 1a and 1b formed of a water-permeable adsorbent containing activated carbon fibers and having a papermaking structure are characterized in that activated carbon fibers having remarkably large adsorptivity are bound together, and that the structure is dense and the density and mechanical strength are large. There is a characteristic. Therefore, due to the high adsorptivity of the activated carbon fibers and the dense structure of the water-permeable adsorbent, the water-permeable adsorbent passes through the water-permeable adsorbent, and in the water-passing process reaching the flow path, odor components and microorganisms in the liquid to be treated are removed. Can be adsorbed. Furthermore, the liquid to be treated is supplied, or even if the backflow washing is performed, the filling state of the activated carbon fibers constituting the water-permeable adsorbent fluctuates,
No density unevenness occurs. Further, it is characterized in that the contact ratio between activated carbon fibers is significantly higher than that of granular activated carbon.
【0023】従って、臭気成分などを吸着除去できると
共に、互いに非接触状態に配設された各電極1a,1b
に、電源2により電圧を印加すると、電極1a,1b間
に均一な電場を形成できる。なお、一般に微生物や細菌
は負の電荷を有するため、陽極に引寄せられて吸着され
る。この陽極では電極反応が生じ、補酵素の分解、微生
物の体内イオンの流出が生じ、微生物や細菌を効率よく
殺菌できる。そのため、一対の電極のうち少なくとも陽
極が活性炭素繊維及び/又は粉粒状活性炭を含む通水性
吸着材で形成されていればよい。Therefore, the odor components and the like can be adsorbed and removed, and the electrodes 1a and 1b disposed in a non-contact state with each other.
When a voltage is applied from the power supply 2 to the electrode, a uniform electric field can be formed between the electrodes 1a and 1b. Since microorganisms and bacteria generally have a negative charge, they are attracted to and adsorbed to the anode. At this anode, an electrode reaction occurs, which causes decomposition of coenzyme and outflow of ions of microorganisms in the body, so that microorganisms and bacteria can be efficiently killed. Therefore, it is sufficient that at least the anode of the pair of electrodes is formed of a water-permeable adsorbent containing activated carbon fibers and / or granular activated carbon.
【0024】なお、図1に示す殺菌装置による処理に際
しては、図2及び図3に示されるような構造とし、電極
を逆流洗浄するのが好ましい。図2は本発明の他の実施
例を示す概略断面図、図3は図2に示す装置を用いた処
理工程を示すフロー図であり、図4は図2及び図3に示
す装置の電気的構成を示すブロック図である。In the treatment by the sterilizing apparatus shown in FIG. 1, it is preferable to adopt a structure as shown in FIGS. FIG. 2 is a schematic cross-sectional view showing another embodiment of the present invention, FIG. 3 is a flowchart showing processing steps using the apparatus shown in FIG. 2, and FIG. 4 is an electrical diagram of the apparatus shown in FIGS. FIG. 3 is a block diagram illustrating a configuration.
【0025】図2に示す例では、第1図に示す殺菌装置
のうち有孔シール部材4の開口部が流出口6bと連通し
た状態でケース6に装着され、殺菌装置とケース6との
間には流入流路7が形成されている。In the example shown in FIG. 2, the sterilizing device shown in FIG. 1 is mounted on the case 6 with the opening of the perforated sealing member 4 communicating with the outlet 6b. Is formed with an inflow passage 7.
【0026】このような構造の殺菌装置では、上記ケー
ス6の流入口6aを水道の蛇口などに装着することによ
り、水道水などを、電極1bの外方から電極間の流路を
経て電極1aの中空部へ通過させ、ケース6の流出口6
bから流出させる過程で、臭気成分を効率的に吸着除去
できると共に、電源2により各電極1a,1bに電圧を
印加することにより、電極1a,1bに吸着した微生物
を効率的に殺菌できる。また、一対の電極1a,1b間
に形成される流路を流れる過程でも、被処理液中の微生
物を殺菌できる。In the sterilizing apparatus having such a structure, tap water or the like is supplied from the outside of the electrode 1b through the flow path between the electrodes 1a by attaching the inflow port 6a of the case 6 to a faucet or the like. Through the hollow part of the
In the process of flowing out from b, the odor component can be efficiently adsorbed and removed, and by applying a voltage to each of the electrodes 1a and 1b by the power supply 2, the microorganisms adsorbed on the electrodes 1a and 1b can be efficiently sterilized. Also, the microorganisms in the liquid to be treated can be sterilized even in the process of flowing through the flow path formed between the pair of electrodes 1a and 1b.
【0027】図2に示す殺菌装置を図3に示すような処
理ラインに設けることにより、業務用水などを多量に効
率よく処理できる。図3に示す処理ラインでは、貯水槽
8の水を、ポンプ9により供給ライン10を通じて殺菌
装置のうちケース6の流入口6aへ供給している。供給
された水は、前記と同様に、電極1b,1aを通過する
過程で、臭気成分などが吸着除去され、電源2により各
電極1a,1bに電圧を印加することにより、効率的に
殺菌される。臭気成分などが除去され、かつ殺菌処理さ
れた水は、ケース6の流出口6bから流出ライン11を
通じて貯溜槽12に貯溜される。By providing the sterilizing apparatus shown in FIG. 2 in a processing line as shown in FIG. 3, a large amount of commercial water can be efficiently treated. In the processing line shown in FIG. 3, water in a water storage tank 8 is supplied by a pump 9 through a supply line 10 to an inlet 6 a of a case 6 in the sterilizer. The supplied water is adsorbed and removed in the process of passing through the electrodes 1b and 1a as described above, and is efficiently sterilized by applying a voltage to each of the electrodes 1a and 1b by the power supply 2. You. The water from which the odor components and the like have been removed and which have been sterilized is stored in the storage tank 12 through the outflow line 11 from the outlet 6b of the case 6.
【0028】そして、前記処理ラインにおいて、殺菌効
率が低下したとき、電極1a,1bを自動的に逆流洗浄
するため、前記供給ライン10には電磁バルブ14aが
設けられているとともに、供給ライン10から分岐する
排出ライン13にも電磁バルブ14bが設けられてい
る。また、前記流出ライン11にも電磁バルブ17aが
設けられている。さらに、ケース6の流出口6bと電磁
バルブ17aとの間の流出ライン11からは、逆洗ライ
ン15が分岐し、この逆洗ライン15には、清浄な処理
液を一対の電極1a,1b間の流路に逆流させるための
ポンプ16と、このポンプの下流側の電磁バルブ17b
とが設けられている。また、前記一対の電極1a,1b
間を接続する導電性線材3は、被処理液の処理に伴なっ
て変化する電流値を検出するため電流測定器21に接続
されている。In order to automatically backwash the electrodes 1a and 1b when the sterilization efficiency is reduced in the processing line, the supply line 10 is provided with an electromagnetic valve 14a. The branch discharge line 13 is also provided with an electromagnetic valve 14b. The outflow line 11 is also provided with an electromagnetic valve 17a. Further, a backwash line 15 branches off from the outflow line 11 between the outlet 6b of the case 6 and the electromagnetic valve 17a, and a clean processing liquid is supplied to the backwash line 15 between the pair of electrodes 1a and 1b. And a solenoid valve 17b on the downstream side of the pump.
Are provided. Further, the pair of electrodes 1a, 1b
The conductive wire 3 that connects between them is connected to a current measuring device 21 for detecting a current value that changes with the treatment of the liquid to be treated.
【0029】電流測定器21により検出された検出値V
は、比較回路22に与えられ、この比較回路において、
電流値に関する基準値Vfと比較される。比較回路22
において、検出値Vが基準値Vf以上であるとき(V≧
Vf)、比較回路22からは制御回路23に制御信号が
与えられる。The detected value V detected by the current measuring device 21
Is supplied to a comparison circuit 22 in which
The current value is compared with a reference value Vf. Comparison circuit 22
, When the detection value V is equal to or more than the reference value Vf (V ≧
Vf), a control signal is supplied from the comparison circuit 22 to the control circuit 23.
【0030】この制御回路23は、比較回路22からの
制御信号に応答して、供給ライン10の電磁バルブ14
aおよび流出ライン11の電磁バルブ17aを閉じ、排
出ライン13の電磁バルブ14bおよび逆洗ライン15
の電磁バルブ17bを開く。すなわち、制御回路23か
らの駆動信号は、供給ライン10の電磁バルブ14aお
よび流出ライン11の電磁バルブ17aを閉じるため、
駆動回路25,26に与えられるとともに、排出ライン
13の電磁バルブ14bおよび逆洗ライン15の電磁バ
ルブ17bを開くため、インバータ24を介して、駆動
回路27,28にも与えられる。また、制御回路23か
らの駆動信号は、インバータ(図示せず)を介して供給
ライン10のポンプ9の作動を停止するためのポンプ駆
動回路に与えられるとともに、逆洗ライン15のポンプ
16の作動を開始するためのポンプ駆動回路にも与えら
れる。The control circuit 23 responds to the control signal from the comparison circuit 22 by responding to the control signal from the comparison circuit 22.
a and the electromagnetic valve 17a of the outflow line 11 are closed, and the electromagnetic valve 14b of the discharge line 13 and the backwash line 15 are closed.
Is opened. That is, the drive signal from the control circuit 23 closes the electromagnetic valve 14a of the supply line 10 and the electromagnetic valve 17a of the outflow line 11,
In addition to being provided to the drive circuits 25 and 26, the circuit is also provided to the drive circuits 27 and 28 via the inverter 24 to open the electromagnetic valve 14b of the discharge line 13 and the electromagnetic valve 17b of the backwash line 15. The drive signal from the control circuit 23 is supplied to a pump drive circuit for stopping the operation of the pump 9 of the supply line 10 via an inverter (not shown), and the operation of the pump 16 of the backwash line 15. Is also provided to the pump drive circuit for initiating
【0031】このような装置では、検出手段からの検出
値Vと、細菌の繁殖又は堆積による電流値に関する基準
値Vfとを比較手段により比較することにより、通水性
成形吸着材で構成された電極1a,1bが高い殺菌効率
を保持しているか否かを判別できる。そして、検出手段
からの検出値Vが、電流値に関する基準値Vf未満であ
る場合(V<Vf)には、電磁バルブ14a,17aを
開くとともに、電磁バルブ14b,17bを閉じて、被
処理液を処理できる。In such an apparatus, the detection value V from the detection means is compared with the reference value Vf relating to the current value due to the growth or accumulation of bacteria by the comparison means, so that the electrode made of the water-permeable molded adsorbent is compared. It can be determined whether or not 1a and 1b maintain high sterilization efficiency. When the detection value V from the detection means is smaller than the reference value Vf relating to the current value (V <Vf), the electromagnetic valves 14a and 17a are opened, and the electromagnetic valves 14b and 17b are closed. Can be processed.
【0032】一方、検出手段からの検出値Vが、基準値
Vf以上である場合(V≧Vf)には、比較手段による
比較結果に基づいて、制御手段からの駆動信号に応答し
て、被処理液の流路を電磁バルブ14a,14b,17
a,17bの開閉により切換えることができる。そし
て、逆洗ライン15を通じて、内筒を構成する電極1a
の中空部に清浄な処理水を供給することにより、通水性
成形吸着材で構成された電極1a,1bを逆流洗浄でき
る。そのため、高い殺菌効率を長期間に亘り維持でき
る。On the other hand, when the detection value V from the detection means is equal to or larger than the reference value Vf (V ≧ Vf), the detected value V is responded to the drive signal from the control means based on the comparison result by the comparison means. The flow path of the processing liquid is changed to the electromagnetic valves 14a, 14b, 17
Switching can be performed by opening and closing a and 17b. Then, the electrode 1a constituting the inner cylinder is passed through the backwash line 15.
By supplying clean treated water to the hollow part, the electrodes 1a and 1b composed of the water-permeable molded adsorbent can be backwashed. Therefore, high sterilization efficiency can be maintained for a long time.
【0033】なお、前記の例では、電流値を基準値とし
て、比較手段により、電極1a,1bが殺菌効率を保持
しているか否かを判別しているが、前記一対の電極間の
電気抵抗値を検出し、比較手段により電気抵抗に関する
基準値と比較してもよい。なお、電気抵抗値を基準とす
る場合には、前記電流値とは逆に、基準値以上である場
合に、電極1a,1bが殺菌効率を保持していると判別
できる。In the above example, whether or not the electrodes 1a and 1b maintain sterilization efficiency is determined by the comparing means using the current value as a reference value, but the electric resistance between the pair of electrodes is determined. The value may be detected and compared with a reference value relating to electrical resistance by the comparing means. When the electric resistance value is used as a reference, it can be determined that the electrodes 1a and 1b maintain sterilization efficiency when the current value is equal to or more than the reference value.
【0034】逆流洗浄においては、一対の電極1a,1
b間の流路と貯溜槽12とを、電磁バルブ及びポンプを
有する逆洗ライン15で接続してもよく、一対の電極間
の流路に通じる逆洗ラインを設けることなく、電磁バル
ブを有する流出ラインに、逆流洗浄用のポンプを設けて
もよい。In the backwashing, a pair of electrodes 1a, 1
The flow path between b and the storage tank 12 may be connected by a backwash line 15 having an electromagnetic valve and a pump, and an electromagnetic valve is provided without providing a backwash line leading to a flow path between a pair of electrodes. A pump for backwashing may be provided in the outflow line.
【0035】電極の逆流洗浄においては、前記通水性成
形吸着材を通過した処理液を用いて逆流洗浄する必要は
なく、他の清浄な逆流洗浄用流体、好ましくは清浄な液
体を用いてもよい。In the backwashing of the electrode, it is not necessary to perform backwashing using the treatment liquid that has passed through the water-permeable molding adsorbent, and another clean backwashing fluid, preferably a clean liquid, may be used. .
【0036】前記一対の電極において、少なくとも一方
の電極が、活性炭素繊維又は粉粒状活性炭を含む通水性
吸着材で形成されていればよい。例えば、図5に示され
るように、内筒として非通水性の中実円筒状電極31a
を用い、外筒として前記と同様の活性炭素繊維を含む通
水性成形吸着材で形成された中空筒状電極31bを用
い、被接触状態で、各電極31a,31bを同心円状に
配設してもよい。この例では、中実円筒状電極31aの
外周面と中空筒状電極31bの内周面との間が処理水の
流路となるように、一方の開口端部を有孔シール部材3
3で閉塞し、他方の開口端部を全面に亘りシール部材3
4で閉塞している。なお、上記中実円筒状電極11a
は、前記活性炭素繊維を含む抄紙構造の形成吸着材に限
らず、導電性材料、例えば、粉粒状活性炭の成形体、黒
鉛、金属などで形成できる。In the pair of electrodes, at least one of the electrodes may be formed of a water-permeable adsorbent containing activated carbon fiber or granular activated carbon. For example, as shown in FIG. 5, a non-water-permeable solid cylindrical electrode 31a is used as an inner cylinder.
A hollow cylindrical electrode 31b formed of the same water-permeable molded adsorbent containing activated carbon fibers as described above is used as the outer cylinder, and the electrodes 31a and 31b are arranged concentrically in a contacted state. Is also good. In this example, one of the opening ends is a perforated sealing member 3 so that the flow path of the treated water is formed between the outer peripheral surface of the solid cylindrical electrode 31a and the inner peripheral surface of the hollow cylindrical electrode 31b.
3 and the other open end is entirely covered with a sealing member 3.
4 is closed. The solid cylindrical electrode 11a
Is not limited to a papermaking structure-forming adsorbent containing activated carbon fibers, but can be formed of a conductive material, for example, a powdered or granular activated carbon compact, graphite, metal, or the like.
【0037】図5に示されるような殺菌装置を用いる
と、水道水などに含まれる臭気成分や微生物などを中空
筒状電極31bを通過する過程で吸着できると共に、電
極31a,31bに電圧を印加することにより、吸着し
た微生物を殺菌できる。When a sterilizer as shown in FIG. 5 is used, odor components and microorganisms contained in tap water and the like can be adsorbed while passing through the hollow cylindrical electrode 31b, and a voltage is applied to the electrodes 31a and 31b. By doing so, the adsorbed microorganisms can be sterilized.
【0038】また、図6に示されるように、流入口43
a及び流出口43bを有する容器43の内壁に内接する
導電性樹脂製電極41aを外筒とし、前記と同様に活性
炭素繊維を含む通水性成形吸着材で形成された中空筒状
電極41bを内筒として用い、各電極を非接触状態で、
同心円状に配設し、電源42に接続してもよい。なお、
この例では、前記内筒を構成する中空筒状電極41b
は、通水性部材、例えば、多孔質ポリエステルや多孔質
ポリプロピレンなどの通水性樹脂、多孔質セラミックス
などで構成された通水性中空筒体44の外周面に吸引成
形により形成されている。また、中空筒状電極41bの
うち流入口43a側の開口部は、閉止部材45で閉塞さ
れ、流出口43b側は、中空部が開口した状態で環状パ
ッキン46で封止されている。Further, as shown in FIG.
a and a hollow cylindrical electrode 41b formed of a water-permeable molded adsorbent containing activated carbon fibers in the same manner as described above. Using as a cylinder, each electrode in a non-contact state,
They may be arranged concentrically and connected to the power supply 42. In addition,
In this example, the hollow cylindrical electrode 41b constituting the inner cylinder
Is formed by suction molding on the outer peripheral surface of a water-permeable hollow cylindrical body 44 made of a water-permeable member, for example, a water-permeable resin such as porous polyester or porous polypropylene, or a porous ceramic. The opening of the hollow cylindrical electrode 41b on the side of the inflow port 43a is closed by a closing member 45, and the side of the outflow port 43b is sealed by an annular packing 46 with the hollow portion opened.
【0039】この場合、内筒の中空筒状電極41bを陽
極とすると、被処理液が内筒を構成する中空筒状電極4
1bの外方から中空部へ流れる過程で、被処理液の浄化
および殺菌が行なわれるとともに、容器43の内壁に接
する外筒電極41aが陰極となり、外筒電極41aの内
面へ細菌や無生物が付着するのを防止できる。また、通
水性中空筒体44により中空筒状電極41bを補強でき
るので、耐圧性が高く、被処理液の処理および逆流洗浄
を繰返し円滑に行なうことができる。In this case, when the hollow cylindrical electrode 41b of the inner cylinder is used as an anode, the liquid to be treated is the hollow cylindrical electrode 4b constituting the inner cylinder.
In the process of flowing from the outside of 1b to the hollow portion, the liquid to be treated is purified and sterilized, and the outer cylinder electrode 41a in contact with the inner wall of the container 43 becomes a cathode, and bacteria and inanimate matter adhere to the inner surface of the outer cylinder electrode 41a. Can be prevented. Further, since the hollow tubular electrode 41b can be reinforced by the water-permeable hollow tubular body 44, the pressure resistance is high, and the treatment of the liquid to be treated and the backwashing can be repeatedly and smoothly performed.
【0040】なお、殺菌装置は、複数対の中空筒状電極
が同心円状に配設されていてもよい。この場合、複数対
の電極で、多量の臭気成分や微生物などを吸引除去でき
ると共に、多量の微生物を殺菌できる。In the sterilizing apparatus, a plurality of pairs of hollow cylindrical electrodes may be arranged concentrically. In this case, a large amount of odor components and microorganisms can be removed by suction with a plurality of pairs of electrodes, and a large amount of microorganisms can be sterilized.
【0041】また、前記の実施例においては、被処理液
を中空筒状の電極の外方から内方へ供給しているが、こ
れとは逆に、内筒を構成する中空筒状の電極の中空部
や、一対の電極間の流路から被処理液を供給し、外筒を
構成する中空筒状の電極の外方へ流出させてもよい。一
般に、負の電荷を有している細菌や微生物は陽極へ吸引
され、電極反応により殺菌される。前記の実施例におい
ては、同心円状に配置された筒状電極のうち外側の電極
が陽極となっているため、陽極が流体の流れの下流側と
なるように、内方から外方へ被処理液を供給して処理す
ると、外方から内方へ被処理液を供給する場合に比べ
て、長期間に亘り微生物の増殖を抑制でき、殺菌効果を
高めることができるという利点がある。In the above embodiment, the liquid to be treated is supplied from the outside to the inside of the hollow cylindrical electrode. Conversely, the hollow cylindrical electrode constituting the inner cylinder is supplied. The liquid to be treated may be supplied from the hollow portion or the flow path between the pair of electrodes, and may flow out of the hollow cylindrical electrode constituting the outer cylinder. Generally, bacteria or microorganisms having a negative charge are sucked into the anode and sterilized by an electrode reaction. In the above embodiment, since the outer electrode of the concentrically arranged cylindrical electrodes is the anode, the processing is performed from inside to outside so that the anode is on the downstream side of the flow of the fluid. When the liquid is supplied and treated, there is an advantage that the growth of microorganisms can be suppressed for a long period of time and the bactericidal effect can be enhanced as compared with the case where the liquid to be treated is supplied from the outside to the inside.
【0042】前記電極は、円筒状に限らず、断面中空多
角形状や平板状などであってもよい。例えば、図7に示
すように、活性炭素繊維を含む抄紙構造の通水性形成吸
着材で形成された複数の平板状電極51a〜51dが、
電源52に接続されているとともに、流入口53a及び
流出口53bを有するケース53内に非接触状態で装着
されていてもよい。The electrode is not limited to a cylindrical shape, but may be a hollow polygonal cross section or a flat plate. For example, as shown in FIG. 7, a plurality of flat electrodes 51a to 51d formed of a water-permeable adsorbent having a papermaking structure containing activated carbon fibers include:
It may be connected to the power supply 52 and may be mounted in a non-contact state in the case 53 having the inflow port 53a and the outflow port 53b.
【0043】本発明の殺菌装置において、比較手段にお
ける前記基準値は、電極間の距離及び印加電圧、被処理
液の供給速度、電極の大きさや数などに応じて、実験的
に容易に設定できる。例えば、厚み9mm、外径35m
m、長さ97mmの抄紙構造の成形吸着体からなる内筒
電極と、厚み5mm、外径44mm、長さ97mmの導
電性樹脂製外筒電極とを同心円状に配設し、約1Vの電
圧を印加する殺菌装置において、被処理水を300ml
/分程度の速度で供給する場合、電極間の電流値が増加
し、電流値500μAに至ると、この電流値は、大腸菌
の生菌数100セル/ml程度に対応する。そのため、
上記の電極を備えた殺菌装置を用いる場合には、基準値
として、生菌数100セル/ml程度に対応する電流値
500μAを採用することができる。In the sterilization apparatus of the present invention, the reference value in the comparison means can be easily set experimentally in accordance with the distance between the electrodes and the applied voltage, the supply speed of the liquid to be treated, the size and number of the electrodes, and the like. . For example, thickness 9mm, outer diameter 35m
m, an inner cylinder electrode made of a molded adsorbent having a papermaking structure having a length of 97 mm, and a conductive resin outer cylinder electrode having a thickness of 5 mm, an outer diameter of 44 mm, and a length of 97 mm are concentrically arranged, and a voltage of about 1 V is applied. In the sterilizer that applies
When the current is supplied at a rate of about 1 / min, when the current value between the electrodes increases and reaches a current value of 500 μA, this current value corresponds to about 100 cells / ml of viable E. coli cells. for that reason,
In the case of using a sterilizing apparatus provided with the above-mentioned electrode, a current value of 500 μA corresponding to about 100 viable cells / ml can be adopted as a reference value.
【0044】電極間の距離及び印加電圧は、所望する殺
菌性及び処理速度などに応じて設定できるが、通常、電
極間の距離1〜20mm、好ましくは5〜15mm程度
であり、印加電圧は0.5〜10V程度で十分である。
また、被処理液の供給速度は、電極の大きさや数、印加
電圧などに応じて、殺菌効率を損わない範囲で適当に選
択できる。例えば、厚み10mm、外径38mm、長さ
10mmの抄紙構造の成形吸着体からなる外筒電極と、
厚み10mm、外径20mm、長さ10mmの抄紙構造
の成形吸着体からなる内筒電極とを同心円状に配設し、
約1Vの電圧を印加する殺菌装置において、被処理液の
供給速度は、例えば、400ml/分以下、好ましくは
50〜350ml/分、さらに好ましくは100〜30
0ml/分程度である。被処理液の供給速度が極端に大
きくなると、通液時間の経過により殺菌されることなく
被処理液が流出する場合がある。The distance between the electrodes and the applied voltage can be set according to the desired bactericidal properties and the processing speed, but the distance between the electrodes is usually 1 to 20 mm, preferably about 5 to 15 mm. About 0.5 to 10 V is sufficient.
Further, the supply speed of the liquid to be treated can be appropriately selected according to the size and number of the electrodes, the applied voltage, and the like, as long as the sterilization efficiency is not impaired. For example, an outer cylindrical electrode made of a molded adsorbent having a papermaking structure with a thickness of 10 mm, an outer diameter of 38 mm, and a length of 10 mm,
An inner cylinder electrode made of a molded adsorbent having a papermaking structure having a thickness of 10 mm, an outer diameter of 20 mm, and a length of 10 mm is arranged concentrically.
In a sterilizing apparatus that applies a voltage of about 1 V, the supply rate of the liquid to be treated is, for example, 400 ml / min or less, preferably 50 to 350 ml / min, and more preferably 100 to 30 ml / min.
It is about 0 ml / min. If the supply speed of the liquid to be treated becomes extremely high, the liquid to be treated may flow out without being sterilized with the passage of the liquid passing time.
【0045】なお、電源の正極、負極と各電極との接続
状態は特に限定されず、図示とは逆の状態に接続されて
いてもよい。The connection between the positive electrode and the negative electrode of the power supply and each electrode is not particularly limited, and may be connected in a state opposite to that shown in the figure.
【0046】上記一対の電極のうち、少なくとも一方の
電極は、活性炭素繊維や粉粒状活性炭を含む通水性吸着
材を構成していればよい。例えば、通水性を有する材
料、例えば、多孔質フィルム、シート、布や金属製スト
レーナ、図6に示される通水性部材などの通水性保持部
材と、該通水性保持部材の間に収容された活性炭素繊維
や粉粒状活性炭とで構成されていてもよい。At least one of the pair of electrodes is only required to constitute a water-permeable adsorbent containing activated carbon fibers or granular activated carbon. For example, a water-permeable material, for example, a porous film, a sheet, a cloth or a metal strainer, a water-permeable holding member such as the water-permeable member shown in FIG. 6, and an activity contained between the water-permeable holding members. It may be composed of carbon fiber or granular activated carbon.
【0047】活性炭素繊維や粉粒状活性炭を含む電極を
補強するためには、金属製ストレーナや前記通水性部材
などの通水性保持部材間に、活性炭素繊維や粉粒状活性
炭を充填したり、活性炭素繊維や粉粒状活性炭を含む通
水性成形吸着材を介在させるのが有用である。In order to reinforce an electrode containing activated carbon fiber or granular activated carbon, it is necessary to fill activated carbon fibers or granular activated carbon between water-straining members such as a metal strainer or the water-permeable member, It is useful to interpose a water-permeable molded adsorbent containing carbon fibers or granular activated carbon.
【0048】好ましい電極は、活性炭素繊維及び/又は
粉粒状活性炭と、フェノール樹脂、フラン樹脂、エポキ
シ樹脂などの熱硬化性樹脂、セルロース、ポリアクリロ
ニトリル、ポリエチレン、ポリプロピレンなどのポリオ
レフィン、ポリエステル、アクリル樹脂などの熱可塑性
樹脂などの樹脂、石油ピッチ系、石炭ピッチ系などのピ
ッチなどから選択されたバインダーとを含む成形吸着材
で構成できる。バインダーの量は、吸着性、通水性およ
び導電性を損わない範囲で選択でき、例えば、活性炭素
繊維及び/又は粉粒状活性炭100重量部に対して、1
〜30重量部、好ましくは2〜10重量部(例えば3〜
7重量部)程度である。なお、上記バインダーがフェノ
ール樹脂、フラン樹脂、セルロース、ポリアクリロニト
リル、などのように炭化又は黒鉛化可能である場合に
は、焼成することにより成形吸着材を得てもよい。Preferred electrodes are activated carbon fibers and / or granular activated carbon, thermosetting resins such as phenolic resins, furan resins and epoxy resins, polyolefins such as cellulose, polyacrylonitrile, polyethylene and polypropylene, polyesters and acrylic resins. And a binder selected from pitches such as a petroleum pitch-based or coal pitch-based resin. The amount of the binder can be selected within a range that does not impair the adsorptivity, water permeability and conductivity. For example, the amount of the binder may be 1 to 100 parts by weight of the activated carbon fiber and / or the granular activated carbon.
To 30 parts by weight, preferably 2 to 10 parts by weight (for example, 3 to
7 parts by weight). When the binder is carbonizable or graphitizable, such as phenol resin, furan resin, cellulose, polyacrylonitrile, etc., the molded adsorbent may be obtained by firing.
【0049】さらに好ましい電極は、一体性を高めるた
め、抄紙構造の成形吸着材で構成されているのが好まし
い。抄紙構造を有する成形吸着材は、活性炭素繊維及び
/又は粉粒状活性炭、特に活性炭素繊維が、熱溶融性合
成樹脂や、ひだを有する麻又はパルプと紙力増強剤とで
接合保持されているのが好ましい。More preferably, the electrode is made of a molded adsorbent having a papermaking structure in order to enhance the integrity. In the molded adsorbent having a papermaking structure, activated carbon fibers and / or granular activated carbon, particularly activated carbon fibers, are bonded and held by a hot-melt synthetic resin, or hemp or pulp having folds and a paper strength agent. Is preferred.
【0050】前記粉粒状活性炭としては、粉末状又は粒
状活性炭が使用でき、その比表面積は、例えば、300
〜4000m2 /g程度である。粉粒状活性炭には、例
えば、2000〜4000m2 /g程度の比表面積を有
する、メソカーボンマイクロビーズを原料とする活性炭
も含まれる。As the granular activated carbon, powdered or granular activated carbon can be used.
It is about 4000 m 2 / g. The granular activated carbon also includes, for example, activated carbon having a specific surface area of about 2000 to 4000 m 2 / g and made of mesocarbon microbeads.
【0051】活性炭素繊維としては、例えば、フェノー
ル樹脂、フラン樹脂、ポリアクリロニトリル、セルロー
ス系樹脂、レーヨンなどの高分子繊維、石油ピッチ系、
石炭ピッチ系などのピッチ系繊維などを素材とする炭素
繊維を賦活処理した繊維状活性炭が使用できる。Examples of the activated carbon fibers include phenol resin, furan resin, polyacrylonitrile, cellulosic resin, polymer fiber such as rayon, petroleum pitch,
Fibrous activated carbon obtained by activating carbon fibers made of pitch-based fibers such as coal pitch-based fibers can be used.
【0052】活性炭素繊維は、細孔半径8〜20オング
ストローム程度、比表面積500〜2500m2 /gで
あるのが好ましい。比表面積が500m2 /g未満であ
ると吸着能が十分でなく、2500m2 /gを越えると
一般に経済的でない。活性炭素繊維としては、通常、繊
維径2〜30μm程度、繊維長0.1〜10mm程度の
ものが使用できる。The activated carbon fiber preferably has a pore radius of about 8 to 20 angstroms and a specific surface area of 500 to 2500 m 2 / g. If the specific surface area is less than 500 m 2 / g, the adsorbing ability is not sufficient, and if it exceeds 2500 m 2 / g, it is generally not economical. As the activated carbon fiber, generally, a fiber having a fiber diameter of about 2 to 30 μm and a fiber length of about 0.1 to 10 mm can be used.
【0053】熱溶融性合成樹脂としては、軟化点50〜
200℃程度の合成樹脂、例えば、ポリエチレン、ポリ
プロピレン、ポリビニルアルコール、ポリアクリロニト
リルなどが使用できる。これらの熱可塑性樹脂のうち、
ポリアクリロニトリルなどが好ましい。熱溶融性合成樹
脂の形態は、粉末状、粒状などであってもよいが、活性
炭素繊維の細孔が閉塞されるのを抑制するため、繊維状
であるのが好ましい。熱溶融性合成樹脂繊維は繊維径5
〜100μm程度、繊維長0.5〜10mm程度のもの
が使用できる。なお、熱溶融性合成樹脂繊維は、繊維の
表面を上記合成樹脂で被覆した複合繊維であってもよ
い。The heat-fusible synthetic resin has a softening point of 50 to
A synthetic resin at about 200 ° C., for example, polyethylene, polypropylene, polyvinyl alcohol, polyacrylonitrile, or the like can be used. Of these thermoplastic resins,
Polyacrylonitrile and the like are preferred. The form of the heat-fusible synthetic resin may be powdery, granular, or the like, but is preferably fibrous in order to prevent the pores of the activated carbon fiber from being blocked. Hot-melt synthetic resin fiber has a fiber diameter of 5
の も の 100 μm and a fiber length of about 0.5 to 10 mm can be used. In addition, the fusible synthetic resin fiber may be a conjugate fiber in which the surface of the fiber is coated with the synthetic resin.
【0054】熱溶融性合成樹脂の割合は、例えば、活性
炭素繊維及び/又は粉粒状活性炭100重量部に対して
5〜40重量部、好ましくは10〜40重量部程度であ
る。The proportion of the heat-fusible synthetic resin is, for example, about 5 to 40 parts by weight, preferably about 10 to 40 parts by weight, based on 100 parts by weight of activated carbon fibers and / or granular activated carbon.
【0055】上記熱溶融性合成樹脂に代えて、又は熱溶
融性合成樹脂とともに、ひだを有する麻又はパルプと紙
力増強剤とを用いてもよい。なお、この場合、活性炭素
繊維及び/又は粉粒状活性炭は成形吸着材全重量の50
〜95%、表面にひだを有するように処理した麻又はパ
ルプのうち少なくとも一方のチップは2〜6重量%、紙
力増強剤は前記麻又はパルプに対して1〜3重量%の割
合で用いてもよい。Instead of the above-mentioned heat-fusible synthetic resin, or together with the heat-fusible synthetic resin, hemp or pulp having folds and a paper strength enhancer may be used. In this case, the activated carbon fibers and / or granular activated carbon are 50% of the total weight of the formed adsorbent.
9595%, at least one chip of hemp or pulp treated to have folds on the surface is used in an amount of 2 to 6% by weight, and a paper strength agent is used in a ratio of 1 to 3% by weight based on the hemp or pulp. You may.
【0056】活性炭素繊維及び/又は粉粒状と熱溶融性
合成樹脂とで形成された成形吸着体の強度を高めるた
め、補強材としての非熱溶融性繊維を含有するのが好ま
しい。非熱溶融性繊維としては、成形吸着体の製造時の
温度で溶融又は変質しない繊維、例えば、パルプ;木
綿、麻などの天然繊維;芳香族ポリアミド繊維、芳香族
ポリエステル繊維、高融点のポリエチレン繊維、高融点
のポリプロピレン繊維などの合成繊維、高融点のポリア
クリロニトリル繊維;レーヨンなどの半合成繊維;ガラ
ス繊維、炭素繊維、アルミナ繊維、金属繊維などの無機
繊維が例示される。このような非熱溶融性繊維として
は、繊維径2〜10μm、繊維長0.5〜10mm程度
のものが使用できる。非熱溶融性繊維の割合は、例え
ば、活性炭素繊維及び/又は粉粒状活性炭100重量部
に対して5〜80重量部程度である。In order to increase the strength of the activated carbon fiber and / or the molded adsorbent formed of the powdery and hot-melt synthetic resin, it is preferable to contain a non-heat-meltable fiber as a reinforcing material. Non-thermally fusible fibers include fibers that do not melt or deteriorate at the temperature at which the molded adsorbent is produced, such as pulp; natural fibers such as cotton and hemp; aromatic polyamide fibers, aromatic polyester fibers, and high-melting polyethylene fibers. And synthetic fibers such as high-melting-point polypropylene fibers; high-melting-point polyacrylonitrile fibers; semi-synthetic fibers such as rayon; and inorganic fibers such as glass fibers, carbon fibers, alumina fibers, and metal fibers. As such non-heat-fusible fibers, those having a fiber diameter of about 2 to 10 μm and a fiber length of about 0.5 to 10 mm can be used. The ratio of the non-heat-fusible fiber is, for example, about 5 to 80 parts by weight based on 100 parts by weight of the activated carbon fiber and / or the granular activated carbon.
【0057】なお、成形吸着体は、吸着能及び強度に悪
影響を及ぼさない範囲で、分散剤、安定剤、粘度調整
剤、充填剤などの添加剤を含有していてもよい。The molded adsorbent may contain additives such as a dispersant, a stabilizer, a viscosity modifier and a filler as long as the adsorbability and the strength are not adversely affected.
【0058】抄紙構造を有する成形吸着体は、活性炭素
繊維及び/又は粉粒状活性炭と熱溶融性合成樹脂などと
を含有する水性スラリーを調製し、吸引成形型を用いて
吸引成形することにより製造できる。スラリーの調製に
際しては、叩解するのが好ましい。吸引成形による歩留
りを高めるため、凝集作用を有する界面活性剤、特に高
分子凝集剤や歩留り向上剤を添加してもよい。スラリー
中の固形分濃度は、通常0.1〜2重量%程度である。A molded adsorbent having a papermaking structure is produced by preparing an aqueous slurry containing activated carbon fibers and / or granular activated carbon and a hot-melt synthetic resin and performing suction molding using a suction mold. it can. In preparing the slurry, it is preferable to beat. In order to increase the yield by suction molding, a surfactant having an aggregating action, in particular, a polymer flocculant or a retention aid may be added. The solid content concentration in the slurry is usually about 0.1 to 2% by weight.
【0059】成形吸着材が中空筒状である場合、吸引成
形は、多数の孔が周面に形成された中空筒状の吸引成形
型に吸引ポンプを接続し、吸引成形型の内部より吸引
し、スラリー中の活性炭素繊維などを吸引成形型の表面
に堆積させることにより行なうことができる。吸引成形
後の湿潤状態の成形吸着材を加熱乾燥し、活性炭素繊維
及び/又は粉粒状活性炭と熱溶融性合成樹脂などとを接
合させることにより、中空筒状成形吸着材が得られる。
加熱乾燥は100〜200℃程度の温度で行なうことが
できる。When the formed adsorbent is in the form of a hollow cylinder, the suction molding is performed by connecting a suction pump to a hollow cylindrical suction mold having a large number of holes formed on the peripheral surface thereof, and suctioning the inside of the suction mold. Activated carbon fibers in the slurry can be deposited on the surface of the suction mold. The molded adsorbent in a wet state after the suction molding is heated and dried, and the activated carbon fiber and / or granular activated carbon is joined to a hot-melt synthetic resin to obtain a hollow tubular molded adsorbent.
Heat drying can be performed at a temperature of about 100 to 200 ° C.
【0060】吸引成形によると、吸引成形型の形状を変
えることにより、種々の形状の成形吸着材を得ることが
できる。吸引成形に際して、吸引力や吸引時間などを調
整することにより、成形吸着材の密度、厚みや通水性を
容易に制御できる。さらには、吸引成形するので、成形
吸着材は均一性に優れる。According to suction molding, by changing the shape of the suction mold, molded adsorbents of various shapes can be obtained. At the time of suction molding, the density, thickness, and water permeability of the molded adsorbent can be easily controlled by adjusting the suction force, the suction time, and the like. Furthermore, since suction molding is performed, the molded adsorbent is excellent in uniformity.
【0061】なお、上記抄紙構造の成形吸着材で形成さ
れた電極の厚みは、通常0.5〜50mm、好ましくは
1〜25mm程度である。厚みが0.5mm未満では機
械的強度が低下し、50mmを越えると一般に経済的で
ない。The thickness of the electrode formed of the adsorbent having the papermaking structure is usually 0.5 to 50 mm, preferably about 1 to 25 mm. If the thickness is less than 0.5 mm, the mechanical strength decreases, and if it exceeds 50 mm, it is generally not economical.
【0062】[0062]
【発明の効果】本発明の電気化学的殺菌装置および殺菌
方法によれば、一対の電極間の電気抵抗値又は電流値を
検出するための検出手段を備えているので、微生物によ
る殺菌効率の低下を検出することにより、殺菌効率を維
持できる。また、検出手段による検出値を利用して、微
生物の堆積を検出できるとともに、長期間に亘り高い殺
菌効率を維持できる。さらに、電極が、活性炭を含む通
水性吸着材で形成されているので、通水性吸着材を通過
する過程で水道水などに含まれる塩素などの臭気成分や
微生物などを吸着できる。従って、臭気成分なども効率
よく吸着除去できるとともに、電極を非接触状態に維持
しつつ、電圧を印加することにより、均一な電場を形成
し、微生物を効率よく殺菌できる。According to the electrochemical sterilizing apparatus and the sterilizing method of the present invention, since the detection means for detecting the electric resistance value or the current value between the pair of electrodes is provided, the efficiency of sterilization by microorganisms is reduced. , The sterilization efficiency can be maintained. In addition, the accumulation of microorganisms can be detected by using the detection value of the detection means, and high sterilization efficiency can be maintained for a long period of time. Further, since the electrode is formed of a water-permeable adsorbent containing activated carbon, odor components such as chlorine and microorganisms contained in tap water and the like can be adsorbed in the process of passing through the water-permeable adsorbent. Therefore, the odor component can be efficiently adsorbed and removed, and a uniform electric field can be formed by applying a voltage while maintaining the electrodes in a non-contact state, so that microorganisms can be efficiently sterilized.
【0063】[0063]
【実験例】以下に、実験例に基づいて本発明をより詳細
に説明する。EXPERIMENTAL EXAMPLES The present invention will be described below in more detail based on experimental examples.
【0064】殺菌装置の作製 ピッチ系繊維状活性炭((株)アドール製、比表面積2
000m2 /g)96重量%、及び熱溶融性合成樹脂繊
維としてのアクリロニトリル繊維4重量%の割合からな
る固形分1重量%の均一な水性スラリーを調製した。な
お、水性スラリーの調製に際しては、それぞれの繊維長
が0.1〜5mmとなるまで叩解した。Preparation of sterilizer Pitch-based fibrous activated carbon (Adol Co., Ltd., specific surface area 2)
A homogeneous aqueous slurry having a solid content of 1% by weight, comprising 96% by weight of 000 m 2 / g) and 4% by weight of acrylonitrile fiber as a hot-melt synthetic resin fiber was prepared. In preparing the aqueous slurry, the fibers were beaten until the respective fiber length became 0.1 to 5 mm.
【0065】次いで、通水性の円筒(多孔質ポリエステ
ル製)にリード線(東邦レーヨン(株)製、高弾性ベス
トファイトHM−40)を巻き付け、円筒の中空部から
吸引しながら、円筒の外周面に水性スラリーを付着堆積
させた後、140℃で2時間加熱乾燥した。得られた抄
紙構造の成形吸着体は、厚み9mm、外径35mm、長
さ97mmであった。この成形吸着体の一方の開口端部
に有孔シール材をシリコーン系接着剤で接着し、他方の
開口端部にシール材を上記と同様にして接着し、閉塞し
た。Next, a lead wire (manufactured by Toho Rayon Co., Ltd., high elasticity Best Fight HM-40) is wound around a water-permeable cylinder (made of porous polyester), and the outer peripheral surface of the cylinder is sucked from the hollow portion of the cylinder. After the aqueous slurry was attached and deposited on the substrate, it was dried by heating at 140 ° C. for 2 hours. The obtained molded adsorbent having a papermaking structure had a thickness of 9 mm, an outer diameter of 35 mm, and a length of 97 mm. A perforated sealing material was adhered to one opening end of the molded adsorbent with a silicone-based adhesive, and a sealing material was adhered to the other opening end in the same manner as described above and closed.
【0066】また、導電性樹脂を成形は、円筒(厚み5
mm、外径44mm、長さ97mm)を作製し、前記と
同様のリード線を上記と同様の接着剤を用いて接続し
た。The conductive resin is molded by a cylinder (thickness: 5).
mm, an outer diameter of 44 mm, and a length of 97 mm), and the same lead wire as above was connected using the same adhesive as above.
【0067】そして、前記成形吸着体と円筒状導電性樹
脂とを同心円状に容器内に収容し、それぞれのリード線
をポテンシオスタットの出力端子に接続し、図6に示す
殺菌装置を構成した。Then, the molded adsorbent and the cylindrical conductive resin were accommodated concentrically in a container, and respective lead wires were connected to output terminals of a potentiostat, thereby constituting a sterilizing apparatus shown in FIG. .
【0068】実験例1 そして、前記成形吸着体と円筒状導電性樹脂に、陽極の
電位が、ポテンシオスタットの参照電極(飽和甘コウ電
極)に対して0.8Vとなるように電圧を印加し、大腸
菌の生菌濃度400〜1900セル/mlの試料水をポ
ンプにより、成形吸着体の外方から中空部へ、流速30
0ml/分の速度で12時間供給した後、12時間滞留
させる操作を繰返した。Experimental Example 1 A voltage was applied to the molded adsorbent and the cylindrical conductive resin so that the potential of the anode became 0.8 V with respect to the reference electrode (saturated sweet potato electrode) of the potentiostat. Then, a sample water having a live bacterial concentration of 400 to 1900 cells / ml of Escherichia coli was pumped from the outside of the molded adsorbent to the hollow portion with a flow rate of 30 to 1900 cells / ml.
The operation of supplying at a rate of 0 ml / min for 12 hours and then retaining for 12 hours was repeated.
【0069】なお、殺菌効果は、所定時間毎、所定量の
流出水を採取し、流出水にふくまれる菌をメンブランフ
ィルター上に吸着固定し、螢光色素を用いて染色し、落
射螢光顕微鏡で観察して計数した。The bactericidal effect was determined by collecting a predetermined amount of effluent at a predetermined time interval, adsorbing and fixing bacteria contained in the effluent on a membrane filter, staining with a fluorescent dye, and using an epifluorescence microscope. And observed.
【0070】その結果、250時間経過により電流値が
500μAに増加したとき、流出水中の生菌数は100
セル/mlであった。なお、試料水の供給・滞留の時間
(hr)経過と生菌数濃度(セル/ml)との関係を図
8に示し、上記時間(hr)経過と電流値(μA)の変
化との関係を図9に示す。図8及び9において、○は電
位を印加しないとき、●は電位を印加したときの値を示
す。As a result, when the current value increased to 500 μA after 250 hours, the number of viable bacteria in the effluent was 100
Cells / ml. FIG. 8 shows the relationship between the elapsed time (hr) of the supply and retention of the sample water and the viable cell count concentration (cell / ml), and the relationship between the elapsed time (hr) and the change in the current value (μA). Is shown in FIG. 8 and 9, ○ indicates a value when no potential is applied, and ● indicates a value when a potential is applied.
【0071】実験例2 上記実験例1の方法とは逆に、中空成形吸着体の中空部
から試料水を供給して外方へ流出させる以外、上記と同
様にして通水したところ、流出水中の生菌数が100セ
ル/mlとなるまでの経過時間は、400時間であり、
前記実験例1の方法よりも長時間に亘り殺菌効果を維持
できた。EXPERIMENTAL EXAMPLE 2 Contrary to the method of Experimental Example 1, except that the sample water was supplied from the hollow portion of the hollow molded adsorbent and allowed to flow out, water was supplied in the same manner as described above. The elapsed time until the viable cell count becomes 100 cells / ml is 400 hours,
The bactericidal effect was maintained for a longer time than in the method of Experimental Example 1.
【0072】実験例3 実験例1と同様にして調製した水性スラリー100重量
部に対してカチオン系紙力増強剤2重量部を添加し、十
分に混合したスラリーを用いて、実験例1と同様にして
成形吸着躯体を作製した。そして、実験例1と同様にし
て試料水を通水して試験したところ、試験開始時に1.
6mAであった電流値が徐々に上昇し、500時間後に
は8mAに達した。このときの生菌濃度は100セル/
mlであった。Experimental Example 3 The same procedure as in Experimental Example 1 was carried out except that 100 parts by weight of the aqueous slurry prepared in the same manner as in Experimental Example 1 was mixed with 2 parts by weight of the cationic paper strength agent, and the resulting mixture was sufficiently mixed. To form a molded adsorption body. Then, when the test was performed by passing water through the sample water in the same manner as in Experimental Example 1, 1.
The current value, which was 6 mA, gradually increased, and reached 8 mA after 500 hours. The viable cell concentration at this time was 100 cells /
ml.
【図1】図1は本発明の一実施例を示す概略断面斜視図
である。FIG. 1 is a schematic sectional perspective view showing one embodiment of the present invention.
【図2】図2は本発明の他の実施例を示す概略断面図で
ある。FIG. 2 is a schematic sectional view showing another embodiment of the present invention.
【図3】図3は図2に示す装置を用いた処理工程を示す
フロー図である。FIG. 3 is a flowchart showing processing steps using the apparatus shown in FIG. 2;
【図4】図4は図2及び図3に示す装置の電気的構成を
示すブロック図である。FIG. 4 is a block diagram showing an electrical configuration of the device shown in FIGS. 2 and 3.
【図5】図5は本発明の他の実施例を示す概略断面斜視
図である。FIG. 5 is a schematic sectional perspective view showing another embodiment of the present invention.
【図6】図6は本発明のさらに他の実施例を示す概略断
面図である。FIG. 6 is a schematic sectional view showing still another embodiment of the present invention.
【図7】図7は本発明の他の実施例を示す概略断面図で
ある。FIG. 7 is a schematic sectional view showing another embodiment of the present invention.
【図8】図8は実験例における経過時間(hr)と生菌
数濃度(セル/ml)との関係を示すグラフである。FIG. 8 is a graph showing the relationship between elapsed time (hr) and viable cell count concentration (cells / ml) in an experimental example.
【図9】図9は実験例における経過時間(hr)と電流
値(μA)の変化との関係を示すグラフである。FIG. 9 is a graph showing a relationship between an elapsed time (hr) and a change in a current value (μA) in an experimental example.
1a,1b,31a,31b,41a,41b,51a
〜51d…電極 14a,14b,17a,17b…電磁バルブ 22…比較回路 23…制御回路1a, 1b, 31a, 31b, 41a, 41b, 51a
~ 51d ... electrodes 14a, 14b, 17a, 17b ... electromagnetic valve 22 ... comparison circuit 23 ... control circuit
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平3−254887(JP,A) 特開 昭58−17888(JP,A) 実開 平3−26394(JP,U) (58)調査した分野(Int.Cl.7,DB名) C02F 1/46,1/28 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-3-254887 (JP, A) JP-A-58-17888 (JP, A) JP-A-3-26394 (JP, U) (58) Survey Field (Int.Cl. 7 , DB name) C02F 1 / 46,1 / 28
Claims (3)
が、非接触状態で配設され、前記一対の電極のうち少な
くとも一方の電極が、活性炭素繊維又は粉粒状活性炭を
含む通水性吸着材で形成された殺菌装置であって、前記
通水性吸着材で形成された電極の一方の側から被処理液
を供給するための流路と、他方の側へ透過した処理液の
流路とが形成されているとともに、前記一対の電極間の
電気抵抗値又は電流値を検出するための検出手段と、こ
の検出手段からの検出値と、被処理液の処理に伴って変
化する電気抵抗値又は電流値に関する基準値とを比較す
るための比較手段と、この比較手段による比較結果に基
づいて、被処理液の流路を切換え、通水性吸着材を逆洗
するための制御手段とを備えている電気化学的殺菌装
置。At least one pair of electrodes to which a voltage is applied is disposed in a non-contact state, and at least one electrode of the pair of electrodes is a water-permeable adsorbent containing activated carbon fiber or granular activated carbon. A formed sterilization device, wherein the
Liquid to be treated from one side of the electrode made of water-permeable adsorbent
Flow path for supplying the processing liquid and the processing liquid permeated to the other side.
With the flow path is formed, and detecting means for detecting the electrical resistance or the current value between the pair of electrodes, this
Changes due to the processing of the liquid to be treated.
The electrical resistance value or the current value.
Based on the comparison result obtained by the comparison means.
Switch the flow path of the liquid to be treated and backwash the water-permeable adsorbent
An electrochemical disinfection device comprising:
が、活性炭素繊維を含み、抄紙構造を有する通水性吸着
材で形成されているとともに、一対の電極間に、前記通
水性吸着材を透過した処理液の流路が形成されている請
求項1記載の電気化学的殺菌装置。2. At least one electrode of the pair of electrodes is formed of a water-permeable adsorbent containing activated carbon fibers and having a papermaking structure, and permeates the water-permeable adsorbent between the pair of electrodes. 2. The electrochemical sterilizer according to claim 1, wherein a flow path of the treated processing liquid is formed.
を、非接触状態で配設され、前記一対の電極のうち少な
くとも一方の電極を、活性炭素繊維又は粉粒状活性炭を
含む通水性吸着材で形成した装置による殺菌方法であっ
て、前記通水性吸着材で形成された電極の一方の側から
被処理液を供給し、他方の側へ処理液を透過させるとと
もに、前記一対の電極間の電気抵抗値又は電流値を検出
手段により検出し、前記検出手段による検出値と、被処
理液の処理に伴って変化する電気抵抗値又は電流値に関
する基準値とを比較手段により比較し、この比較手段に
よる比較結果に基づいて、制御手段により、被処理液の
流路を切換え、通水性吸着材を逆流洗浄する電気化学的
殺菌方法。3. At least one pair of electrodes to which a voltage is applied is disposed in a non-contact state, and at least one of the pair of electrodes is made of a water-permeable adsorbent containing activated carbon fiber or granular activated carbon. A sterilization method using the formed device, wherein the electrode formed from the water-permeable adsorbent material from one side.
When the liquid to be processed is supplied and the processing liquid is transmitted to the other side,
In addition, an electric resistance value or a current value between the pair of electrodes is detected by a detecting means, and a detection value of the detecting means and
The electrical resistance or current value that changes with the
The reference value to be compared is compared with the comparison means.
Based on the result of the comparison, the control unit controls the liquid to be treated.
An electrochemical sterilization method that switches the flow path and backwashes the water-permeable adsorbent .
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP34070193A JP3267779B2 (en) | 1993-12-08 | 1993-12-08 | Electrochemical sterilizer and sterilization method using the same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP34070193A JP3267779B2 (en) | 1993-12-08 | 1993-12-08 | Electrochemical sterilizer and sterilization method using the same |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH07155766A JPH07155766A (en) | 1995-06-20 |
| JP3267779B2 true JP3267779B2 (en) | 2002-03-25 |
Family
ID=18339492
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP34070193A Expired - Fee Related JP3267779B2 (en) | 1993-12-08 | 1993-12-08 | Electrochemical sterilizer and sterilization method using the same |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3267779B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP3109203A4 (en) * | 2014-03-28 | 2017-09-13 | Daikin Industries, Ltd. | Submerged discharge device |
Families Citing this family (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP4605694B2 (en) * | 2004-03-30 | 2011-01-05 | 株式会社テックコーポレーション | Water quality improvement method and electrolyzed water generating apparatus in electrolyzed water generation |
| US8046867B2 (en) | 2006-02-10 | 2011-11-01 | Tennant Company | Mobile surface cleaner having a sparging device |
| US8025787B2 (en) | 2006-02-10 | 2011-09-27 | Tennant Company | Method and apparatus for generating, applying and neutralizing an electrochemically activated liquid |
| JP5283351B2 (en) * | 2007-05-24 | 2013-09-04 | 学校法人 龍谷大学 | Water purifier |
| BRPI0914208A2 (en) * | 2008-06-19 | 2015-11-03 | Tennant Co | electrolysis cell and method |
| JP5796986B2 (en) * | 2011-04-05 | 2015-10-21 | 株式会社industria | Water treatment apparatus, water treatment method and water treatment system |
| JP6561429B2 (en) * | 2013-11-19 | 2019-08-21 | ユニチカ株式会社 | Deionized sheet for electrode of liquid-type capacitor |
| CN104628092A (en) * | 2015-02-26 | 2015-05-20 | 罗民雄 | Membrane-free electrolysis water new method capable of controlling acidity or alkalinity of electrolysis water |
| WO2016186596A2 (en) * | 2015-05-20 | 2016-11-24 | Bayram Edip | A production method |
| TR201506030A1 (en) * | 2015-05-20 | 2016-12-21 | Edip Bayram | A water purification system |
-
1993
- 1993-12-08 JP JP34070193A patent/JP3267779B2/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP3109203A4 (en) * | 2014-03-28 | 2017-09-13 | Daikin Industries, Ltd. | Submerged discharge device |
| US10087091B2 (en) | 2014-03-28 | 2018-10-02 | Daikin Industries, Ltd. | Submerged discharge device |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH07155766A (en) | 1995-06-20 |
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