JP3258749B2 - Method and apparatus for purifying tidal canal - Google Patents
Method and apparatus for purifying tidal canalInfo
- Publication number
- JP3258749B2 JP3258749B2 JP4941393A JP4941393A JP3258749B2 JP 3258749 B2 JP3258749 B2 JP 3258749B2 JP 4941393 A JP4941393 A JP 4941393A JP 4941393 A JP4941393 A JP 4941393A JP 3258749 B2 JP3258749 B2 JP 3258749B2
- Authority
- JP
- Japan
- Prior art keywords
- canal
- tidal
- underwater
- tide
- ejector
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Landscapes
- Aeration Devices For Treatment Of Activated Polluted Sludge (AREA)
- Treatment Of Sludge (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は潮の満干にともなって海
水が出入りする感潮運河に浄化方法および浄化装置に関
する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for purifying a tidal canal where seawater flows in and out of the tide.
【0002】[0002]
【従来の技術】一般に、都市の感潮運河に河川水や下水
処理水中の有機性懸濁物が沈殿すると、底質を形成す
る。この感潮運河の底質から腐敗ガスが発生し、COD
成分の溶出がおこって、悪臭および透視度の低下等をも
たらす。このため、従来は定期的なしゅんせつを行な
い、感潮運河底部に沈殿する底質を排除している。しか
しながら、しゅんせつを行なう際、一般に実施時期の設
定が難しく、しゅんせつ実施の際、悪臭、COD溶出が
増加する。またしゅんせつ実施の際、船の運行に支障が
生じたり、しゅんせつした汚泥の処分が必要になる等の
問題がある。2. Description of the Related Art Generally, sediment is formed when an organic suspension in river water or sewage treatment water precipitates in an urban tidal canal. Decay gas is generated from the sediment of this tidal canal, and COD
Elution of the components occurs, resulting in an odor and a decrease in the visibility. For this reason, regular dredging has been carried out in the past to remove sediment deposited at the bottom of the tidal canal. However, when dredging is performed, it is generally difficult to set the timing of the dredging, and when dredging is performed, malodor and COD elution increase. In addition, when dredging is carried out, there is a problem that the operation of the ship is hindered and the dredged sludge needs to be disposed.
【0003】本発明はこのような点を考慮してなされた
ものであり、しゅんせつ作業を行なうことなく運河底部
の底質を容易に排出することができる感潮運河の浄化方
法および浄化装置を提供することを目的とする。The present invention has been made in view of the above points, and provides a method and a device for purifying a tidal canal that can easily discharge the sediment at the bottom of the canal without performing dredging work. The purpose is to do.
【0004】[0004]
【課題を解決するための手段】請求項1記載の発明は、
潮の満干にともなって海水が出入りするとともに所定潮
流速度を有する感潮運河内に、水中エジェクタを配置す
る工程と、引き潮時に、前記水中エジェクタを間欠的に
起動し、気泡を含む水流を運河底部に向けて噴射する工
程と、からなり、運河底部に堆積する懸濁物を浮上させ
て運河外方に排出することを特徴とする感潮運河の浄化
方法である。According to the first aspect of the present invention,
A step of arranging an underwater ejector in a tidal canal where seawater flows in and out with the tide, and having a predetermined tidal current speed, and at ebb tide, intermittently activates the underwater ejector, causing the water flow containing bubbles to flow at the bottom of the canal. And discharging the suspended matter deposited on the bottom of the canal to the outside of the canal.
【0005】請求項2記載の発明は、潮の満干にともな
って海水が出入りするとともに所定潮流速度を有する感
潮運河内に、水中エジェクタを配置する工程と、引き潮
時に、前記水中エジェクタを上流側から下流側に向って
移動させながら間欠的に起動し、前記水中エジェクタか
ら気泡を含む水流を運河底部に向けて噴射する工程と、
からなり、運河底部に堆積する懸濁物を浮上させて運河
外方に排出することを特徴とする感潮運河の浄化方法で
ある。According to a second aspect of the present invention, there is provided a step of arranging an underwater ejector in a tidal canal having a predetermined tidal velocity as seawater flows in and out of tide, Starting intermittently while moving toward the downstream from, and injecting a water flow containing bubbles from the underwater ejector toward the canal bottom,
This is a method of purifying a tidal canal, characterized by floating suspended matter deposited on the bottom of the canal and discharging the suspended substance to the outside of the canal.
【0006】請求項3記載の発明は、潮の満干にともな
って海水が出入りするとともに所定潮流速度を有する感
潮運河内に設けられ、運河底部に向けて気泡を含む水流
を噴射する水中エジェクタと、感潮運河の引き潮時に前
記水中エジェクタを間欠的に起動させる制御器とを備
え、運河底部に堆積する懸濁物を浮上させて運河外方へ
排出することを特徴とする感潮運河の浄化装置である。According to a third aspect of the present invention, there is provided an underwater ejector which is provided in a tidal canal having a predetermined tidal velocity as seawater flows in and out of the tide, and injects a water flow containing bubbles toward the bottom of the canal. A controller for intermittently activating the underwater ejector at the time of ebb of a tidal canal, whereby floating suspended matter deposited at the bottom of the canal is discharged to the outside of the canal. Device.
【0007】請求項4記載の発明は、潮の満干にともな
って海水が出入りするとともに所定潮流速度を有する感
潮運河内に、上流側から下流側へ向けて順次設けられ、
運河底部に向けて気泡を含む水流を噴射する複数の水中
エジェクタと、感潮運河の引き潮時に前記複数の水中エ
ジェクタを上流側から下流側に向って順次、所定の時間
間隔をおいて各々の水中エジェクタを一定時間だけ起動
させる制御器とを備え、運河底部に堆積する懸濁物を浮
上させて運河外方へ排出することを特徴とする感潮運河
の浄化装置である。According to a fourth aspect of the present invention, there is provided a tidal canal having seawater flowing in and out of the tide when the tide is full and having a predetermined tidal flow speed, and is sequentially provided from the upstream to the downstream.
A plurality of underwater ejectors for injecting a water stream containing air bubbles toward the bottom of the canal, and the plurality of underwater ejectors in order from the upstream side to the downstream side at the time of ebb of the tidal canal, each underwater at predetermined time intervals. A controller for activating an ejector for a certain period of time, and a tidal canal purification device characterized by floating suspended matter deposited on the bottom of the canal and discharging it to the outside of the canal.
【0008】請求項5記載の発明は、潮の満干にともな
って海水が出入りするとともに所定潮流速度を有する感
潮運河内に設けられ、運河底部に向けて気泡を含む水流
を噴射する水中エジェクタと、前記水中エジェクタを上
流側から下流側へ向って移動させる駆動機構と、感潮運
河の引き潮時に前記駆動機構により前記水中エジェクタ
を上流側から下流側に向って移動させながら、前記水中
エジェクタを間欠的に起動する制御器とを備え、運河底
部に堆積する懸濁物を浮上させて運河外方へ排出するこ
とを特徴とする感潮運河の浄化装置である。According to a fifth aspect of the present invention, there is provided an underwater ejector which is provided in a tidal canal having a predetermined tidal velocity as seawater flows in and out of the tide, and injects a water flow containing bubbles toward the bottom of the canal. A drive mechanism for moving the underwater ejector from the upstream side to the downstream side, and an intermittent operation of the underwater ejector while the drive mechanism moves the underwater ejector from the upstream side to the downstream side during ebb of a tidal canal. A tidal canal purifying apparatus, comprising: a controller that is activated in an active manner; and floating the suspended matter deposited on the bottom of the canal and discharging the suspended matter to the outside of the canal.
【0009】[0009]
【実施例】以下、図面を参照して本発明の第1の実施例
について説明する。図1は本発明による感潮運河の浄化
方法および浄化装置の第1の実施例を示す図である。図
1に示すように、潮の満干にともなって海水が出入りす
る感潮運河1に干潮水位3および満潮水位14が各々定
められ、運河1の湾岸壁2上であって干潮水位3の下方
近傍に潮流計4が設置されている。この潮流計4は潮流
の速度を測定し、この測定結果に基づいて潮の引き潮時
を検出するようになっている。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a view showing a first embodiment of a method and a device for purifying a tidal canal according to the present invention. As shown in FIG. 1, a low tide water level 3 and a high tide water level 14 are respectively set in a tidal canal 1 where seawater flows in and out of the tide when the tide rises and lows. A tidal current meter 4 is installed. The tidal current meter 4 measures the speed of the tidal current, and detects when the tide is ebbing based on the measurement result.
【0010】また、干潮水位3の約0.5m下方に、水
中エジェクタ5が配置されている。この水中エジェクタ
5は上部に設けられた流入口11と下部に設けられたノ
ズル12とを有し、水中エジェクタ5には、一端が大気
中に開口した空気取入管10の他端が接続されている。
また、水中エジェクタ5の上部の流入口11は、干潮水
位3の下方近傍に開口している。An underwater ejector 5 is arranged about 0.5 m below the low tide water level 3. The underwater ejector 5 has an inflow port 11 provided at an upper portion and a nozzle 12 provided at a lower portion. The underwater ejector 5 is connected to the other end of an air intake pipe 10 having one end open to the atmosphere. I have.
In addition, the inflow port 11 above the underwater ejector 5 opens near the low tide water level 3.
【0011】さらに潮流計4および水中エジェクタ5に
は、制御器6が接続され、潮流計4で引き潮時を検出し
た場合、制御器6により水中エジェクタ5を間欠的に起
動するようになっている。Further, a controller 6 is connected to the tide meter 4 and the underwater ejector 5, and when the tide meter 4 detects a tide, the controller 6 intermittently starts the underwater ejector 5. .
【0012】次にこのような構成からなる本実施例の作
用について説明する。Next, the operation of this embodiment having the above configuration will be described.
【0013】潮流計4が潮流20の流速から引き潮時を
感知し、かつ流速が所定値、例えば最大流速の10%値
を越えた条件のもとで、制御器6から水中エジェクタ5
に対し間欠起動のパルス信号が出力される。水中エジェ
クタ5が起動すると、ノズル12から微細気泡を含む水
流21が運河底部へ向けて噴射される。そして運河底部
での流速が所定値以上、例えば100m/h以上の領域
(以下、流動域と称す)23では、運河底部に堆積して
いる有機性懸濁物層(底質)22に微細気泡が付着し、
この結果、有機性懸濁物層22が浮上して水面近傍で浮
遊化する。The tide meter 4 senses the time of ebb tide from the flow velocity of the tidal current 20, and under the condition that the flow velocity exceeds a predetermined value, for example, 10% of the maximum flow velocity, the controller 6 sends the underwater ejector 5
, A pulse signal for intermittent activation is output. When the underwater ejector 5 is activated, a water stream 21 containing fine bubbles is jetted from the nozzle 12 toward the canal bottom. In a region 23 in which the flow velocity at the bottom of the canal is a predetermined value or more, for example, 100 m / h or more (hereinafter referred to as a flow region) 23, fine bubbles are formed in the organic suspension layer (sediment) 22 deposited on the bottom of the canal. Adheres,
As a result, the organic suspension layer 22 floats and floats near the water surface.
【0014】一般的に水面近傍の流速は、底部のものに
比べて大きい。このため浮遊化した有機性懸濁物(以
下、浮遊化懸濁物と称す)24は、潮流20とともに容
易に運河1の外方に排出される。また水中エジェクタ5
を間欠的に起動停止することにより、まず停止時に上流
の有機性懸濁物層22が、先にできた穴を埋めるよう
に、すでに有機性懸濁物層22が浮上した流動域23に
自然に移動する。次に、水中エジェクタ5の再起動によ
り、移動した有機性懸濁物層22が浮遊化する。このよ
うに水中エジェクタ5の間欠的な起動によって、効率よ
く有機性懸濁物層22を運河1の外に排出できることが
できる。Generally, the flow velocity near the water surface is higher than that at the bottom. Therefore, the suspended organic suspension (hereinafter, referred to as a suspended suspension) 24 is easily discharged to the outside of the canal 1 together with the tidal current 20. Underwater ejector 5
Is intermittently started and stopped, so that the organic suspension layer 22 at the upstream first naturally fills the flow area 23 where the organic suspension layer 22 has already floated so as to fill the previously formed hole. Go to Next, the restarted underwater ejector 5 causes the moved organic suspension layer 22 to float. As described above, the intermittent activation of the underwater ejector 5 allows the organic suspended matter layer 22 to be efficiently discharged out of the canal 1.
【0015】一般に、有機性懸濁物の沈降速度は概ね1
〜10m/h程度であり極めて浮遊しやすいので、流速
のある場所では底質は発生せず、停滞部、例えば船溜ま
り、河口、湾曲部、コーナー部等で発生する。本実施例
では、このような有機性懸濁物の性質と流速を利用した
ものである。すなわち、引き潮時に水中エジェクタ5を
起動し、微細気泡を含む水流を生じさせ、溶存酸素を運
河底部に供給するとともに停滞部に沈殿した有機性懸濁
物を浮上させることにより、有機性懸濁物を潮流に乗せ
て運河の外方に容易に排出することができる。運河の外
方に排出された有機性懸濁物は、波浪により溶解する十
分な酸素のもとで、細菌、プランクトン、魚介類等の自
然浄化力によってゆっくりと分解される。In general, the sedimentation rate of an organic suspension is approximately 1
Since it is extremely easy to float at about 10 to 10 m / h, no sediment is generated in a place where the flow velocity is high, and it is generated in a stagnant part, for example, a pool, a river mouth, a curved part, a corner part or the like. In the present embodiment, the property and flow rate of such an organic suspension are used. That is, by starting the underwater ejector 5 during ebb tide, generating a water flow containing fine bubbles, supplying dissolved oxygen to the bottom of the canal, and floating the organic suspension that has settled in the stagnant portion, thereby forming the organic suspension. Can be easily discharged to the outside of the canal in the tide. The organic suspension discharged to the outside of the canal is slowly decomposed by natural purifying power of bacteria, plankton, seafood, etc. under sufficient oxygen dissolved by the waves.
【0016】次に図2および図3により、本発明の第2
の実施例について説明する。図1に示す第1の実施例と
同一部分には同一符号を付して詳細な説明は省略する。Next, referring to FIGS. 2 and 3, the second embodiment of the present invention will be described.
An example will be described. The same parts as those in the first embodiment shown in FIG. 1 are denoted by the same reference numerals, and detailed description is omitted.
【0017】図2において、複数の水中エジェクタ5
a,5b,…5nが上流から下流に向って順次配設され
ている。また各水中エジェクタ5a,5b,…5nおよ
び潮流計4が制御器27に接続されている。In FIG. 2, a plurality of underwater ejectors 5 are provided.
5n are sequentially arranged from upstream to downstream. The underwater ejectors 5a, 5b,... 5n and the tide meter 4 are connected to the controller 27.
【0018】潮流計4が潮流20の流速から引き潮時を
感知し、かつ流速が所定値、例えば最大潮流の10%値
を越えた条件のもとで、制御器27から水中エジェクタ
5に対し起動のパルス信号が出力される。ここで制御器
27から出力される起動のパルス信号の一例を図3に示
す。図3に示すように、水中エジェクタ5a,5b,…
5nは所定の時間間隔t1(h)および一定の起動時間
t2(h)で、水中エジェクタ5a,5b,…5nの順
に起動し、潮流20の流速が最大潮流の10%値に低下
した時点で停止しリセットする。The tide meter 4 senses the time of ebb from the flow velocity of the tidal current 20 and activates the underwater ejector 5 from the controller 27 under the condition that the flow velocity exceeds a predetermined value, for example, 10% of the maximum tide. Is output. Here, an example of a start pulse signal output from the controller 27 is shown in FIG. As shown in FIG. 3, the underwater ejectors 5a, 5b,.
5n is a predetermined time interval t1 (h) and a fixed starting time t2 (h), and starts in the order of the underwater ejectors 5a, 5b,... 5n, and when the flow velocity of the tidal current 20 decreases to 10% of the maximum tidal current. Stop and reset.
【0019】この場合、(i−1)段の水中エジェクタ
5i−1による浮遊化懸濁物24が潮流20で流れ去っ
た後でi段の水中エジェクタ5iを起動することによ
り、すなわち水中エジェクタ5a,5b,…5n間の距
離をL(m)、潮流をvf(m/h)とした場合、 時間間隔t1−起動時間t2≧L/vf以上 にすることにより、浮遊化懸濁物24の逆流を防止する
ことができるため、効果的に有機性懸濁物を外方へ排出
することができる。In this case, by activating the i-stage underwater ejector 5i after the suspended suspension 24 by the (i-1) -stage underwater ejector 5i-1 has flowed off in the tidal current 20, ie, the underwater ejector 5a , 5b,..., 5n is L (m) and the tidal current is vf (m / h), the time interval t1-the activation time t2 ≧ L / vf or more, Since the backflow can be prevented, the organic suspension can be effectively discharged to the outside.
【0020】次に図4により本発明の第3の実施例につ
いて説明する。図1に示す第1の実施例と同一部分には
同一符号を付して詳細な説明は省略する。Next, a third embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment shown in FIG. 1 are denoted by the same reference numerals, and detailed description is omitted.
【0021】図4に示すように、運河1の護岸壁2上で
あって干潮水位3の下方近傍に、潮流計4が設けられ、
干潮水位3の約0.5m下方に軌道30が上流側から下
流側へ水平方向に延びている。また軌道30の上流端に
待機点31が設けられ、軌道30の下流端に終点32が
設けられている。また軌道30上に、走行装置33を有
する水中エジェクタ34が取り付けられ、水中エジェク
タ34は軌道30に沿って走行する。As shown in FIG. 4, a tide meter 4 is provided on the revetment wall 2 of the canal 1 and in the vicinity below the low tide water level 3,
A track 30 extends horizontally from the upstream side to the downstream side about 0.5 m below the low tide water level 3. A standby point 31 is provided at an upstream end of the track 30, and an end point 32 is provided at a downstream end of the track 30. An underwater ejector 34 having a traveling device 33 is mounted on the track 30, and the underwater ejector 34 travels along the track 30.
【0022】潮流計4が潮流20の流速から引き潮時を
感知し、かつ流速が所定値、例えば最大潮流の10%値
を越えた条件のもとで、制御器35から水中エジェクタ
34に対し起動信号が出力され、水中エジェクタ34を
起動して、気泡を含む水流21が運河底部に向って噴射
される。同時に、走行装置33によって水中エジェクタ
34は、下流に向かって移動を開始し、底部に堆積して
いる有機性懸濁物層22を浮遊化する。この場合、水中
エジェクタ34の移動速度vf(m/h)は、潮流vf
(m/h)よりも小さくなっている。水中エジェクタ3
4が終点32に達すると、水中エジェクタ34の起動が
停止し、水中エジェクタ34は待機点31に戻る。その
後、水中エジェクタ34は再度起動して移動を開始す
る。また流速が低下し、最大潮流の10%値になった
ら、水中エジェクタ34はその起動を停止し、待機点3
1に戻り待機する。The tide meter 4 detects the time of ebb tide from the flow rate of the tidal current 20 and activates the underwater ejector 34 from the controller 35 under the condition that the flow rate exceeds a predetermined value, for example, 10% of the maximum tide. A signal is output, and the underwater ejector 34 is activated, and the water stream 21 containing air bubbles is jetted toward the canal bottom. At the same time, the traveling device 33 causes the underwater ejector 34 to start moving downstream to float the organic suspension layer 22 deposited on the bottom. In this case, the moving speed vf (m / h) of the underwater ejector 34 is
(M / h). Underwater ejector 3
When 4 reaches the end point 32, the activation of the underwater ejector 34 is stopped, and the underwater ejector 34 returns to the standby point 31. After that, the underwater ejector 34 starts again and starts moving. When the flow velocity decreases and reaches 10% of the maximum tide, the submersible ejector 34 stops its activation, and the standby point 3
Return to 1 and wait.
【0023】なお、図4において、水中エジェクタ34
には空気取入管36が接続され、この空気取入管36は
フロート37により固定されている。In FIG. 4, the underwater ejector 34
Is connected to an air intake pipe 36, which is fixed by a float 37.
【0024】次に図5により、本発明の第4の実施例に
ついて説明する。図1に示す第1の実施例と同一部分に
は同一符号を付して詳細な説明は省略する。Next, a fourth embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment shown in FIG. 1 are denoted by the same reference numerals, and detailed description is omitted.
【0025】図5において、複数の水中エジェクタ34
a,34b,…34nが、軌道30に沿って上流側から
下流側に向って走行自在に取付けられ、各々の水中エジ
ェクタ34a,34b,…34nは走行装置33を有し
ている。In FIG. 5, a plurality of underwater ejectors 34 are provided.
34n are mounted so as to be able to travel along the track 30 from the upstream side to the downstream side, and each underwater ejector 34a, 34b,.
【0026】潮流計4が潮流20の流速から引き潮時を
感知し、かつ流速が所定値、例えば最大潮流の10%値
を越えたとき、制御器40から水中エジェクタ34a,
34b,…34nに対し起動の信号を出力し、同時に走
行装置33によって水中エジェクタ34a,34b,…
34nを上流側から順に下流に向かって軌道30に沿っ
て移動させる。すべての水中エジェクタ34a,34
b,…34nが終点32に達すると、すべてのエジェク
タ34a,34b,…34nは起動を停止し、待機点3
1に戻る。その後水中エジェクタ34a,34b,…3
4nは再度起動し、移動を開始する。When the tide meter 4 senses the time of ebb tide from the flow rate of the tidal current 20 and the flow rate exceeds a predetermined value, for example, 10% of the maximum tidal current, the controller 40 sends the underwater ejectors 34a, 34a,
34n are output to the underwater ejectors 34a, 34b,.
34n is moved along the track 30 from the upstream side to the downstream side. All underwater ejectors 34a, 34
When the b,... 34n reaches the end point 32, all the ejectors 34a, 34b,.
Return to 1. Then, the underwater ejectors 34a, 34b,.
4n starts again and starts moving.
【0027】流速が低下し、最大潮流の10%値になっ
たら、すべての水中エジェクタ34a,34b,…34
nの起動を停止し、全機を待機点31に戻して待機させ
る。水中エジェクタ34a,34b,…34nの移動速
度vr(m/h)は、潮流vf(m/h)よりも小さく
なっている。また水中エジェクタ34a,34b,…3
4nの流動域長をL2、各水中エジェクタ34a,34
b,…34nのスタートの時間間隔をt3(h)とした
場合、t3をL2/vfよりも大きくしておく。この場
合、(i−1)段の水中エジェクタ34i−nによる流
動域23の浮遊化懸濁物24が潮流で流れ去った後、i
段の水中エジェクタ34iによる流動域23ができるの
で浮遊化懸濁物24の逆流を効果的に防止することがで
きる。When the flow velocity decreases and reaches 10% of the maximum tide, all of the underwater ejectors 34a, 34b,.
n is stopped, and all machines are returned to the standby point 31 to be on standby. The moving speed vr (m / h) of the underwater ejectors 34a, 34b,... 34n is smaller than the tidal current vf (m / h). The underwater ejectors 34a, 34b,.
The flow zone length of 4n is L2, and each underwater ejector 34a, 34
If the time interval of the start of b,... 34n is t3 (h), t3 is set to be larger than L2 / vf. In this case, after the suspended suspension 24 in the flow area 23 by the submerged ejector 34i-n of the (i-1) stage flows off by the tidal current, i
Since the flow area 23 is formed by the underwater ejector 34i in the stage, the backflow of the suspended suspension 24 can be effectively prevented.
【0028】上記各実施例において、潮流計4を用いて
引き潮時の流速を感知し水中エジェクタ5,34を起動
する例を示したが、潮流計4は必ずしも使用する必要は
ない。すなわち年間を通じた干潮時刻を予め定めてお
き、潮流計4を用いることなく通年タイマーを制御器
7,27,35,40に組み込み、予め定められた時刻
に水中エジェクタ5,34を起動させ、かつ走行装置3
0を移動させても良い。この場合波浪、貝類の付着によ
る潮流計4の損傷にともなう誤動作が回避できる。In each of the above-described embodiments, an example is shown in which the flow meter at the time of ebb tide is detected using the tide meter 4 to activate the underwater ejectors 5, 34. However, the tide meter 4 is not necessarily used. That is, a low tide time throughout the year is determined in advance, a year-round timer is incorporated in the controller 7, 27, 35, 40 without using the tide meter 4, and the underwater ejectors 5, 34 are activated at the predetermined time, and Traveling device 3
0 may be moved. In this case, malfunction due to damage to the tide meter 4 due to the attachment of waves and shellfish can be avoided.
【0029】[0029]
【発明の効果】以上説明したように、本発明によれば、
気泡を含む水流を運河底部に噴出させることにより、感
潮運河に沈殿堆積した有機性懸濁物を浮上させ、しゅん
せつに頼ることなく運河内の潮流により容易かつ簡単に
外方へ排出することができる。このため、運河内に有機
性懸濁物からなる底質を生じさせることなく、運河内を
清浄な状態に維持することができる。As described above, according to the present invention,
By ejecting a water stream containing air bubbles to the bottom of the canal, the organic suspension that has settled in the tidal canal floats and can be easily and easily discharged outward by the tidal current in the canal without relying on dredging. it can. For this reason, the inside of the canal can be maintained in a clean state without generating sediment composed of organic suspended matter in the canal.
【図1】本発明による感潮運河の浄化方法および浄化装
置の第1の実施例を示す概略側面図。FIG. 1 is a schematic side view showing a first embodiment of a method and a device for purifying a tidal canal according to the present invention.
【図2】本発明の第2の実施例を示す概略側面図。FIG. 2 is a schematic side view showing a second embodiment of the present invention.
【図3】本発明の第2の実施例における起動用パルス信
号を示す図。FIG. 3 is a diagram showing a starting pulse signal according to a second embodiment of the present invention.
【図4】本発明の第3の実施例を示す概略側面図。FIG. 4 is a schematic side view showing a third embodiment of the present invention.
【図5】本発明の第4の実施例を示す概略側面図。FIG. 5 is a schematic side view showing a fourth embodiment of the present invention.
1 感潮運河 4 潮流計 5,34 水中エジェクタ 6,27,35,40 制御器 22 有機性懸濁物層 23 流動域 24 浮遊化懸濁物 30 軌道 DESCRIPTION OF SYMBOLS 1 Tidal canal 4 Tidal meter 5,34 Underwater ejector 6,27,35,40 Controller 22 Organic suspension layer 23 Flow basin 24 Suspended suspension 30 Orbit
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平6−257117(JP,A) 特開 平1−127099(JP,A) 特開 昭47−23280(JP,A) (58)調査した分野(Int.Cl.7,DB名) C02F 7/00 C02F 3/20 C02F 3/22 C02F 11/00 ────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-6-257117 (JP, A) JP-A 1-127099 (JP, A) JP-A-47-23280 (JP, A) (58) Survey Field (Int.Cl. 7 , DB name) C02F 7/00 C02F 3/20 C02F 3/22 C02F 11/00
Claims (5)
ともに所定潮流速度を有する感潮運河内に、水中エジェ
クタを配置する工程と、 引き潮時に、前記水中エジェクタを間欠的に起動し、気
泡を含む水流を運河底部に向けて噴射する工程と、 からなり、運河底部に堆積する懸濁物を浮上させて運河
外方に排出することを特徴とする感潮運河の浄化方法。1. A step of arranging an underwater ejector in a tidal canal having a predetermined tidal velocity as seawater flows in and out of the tide, intermittently activating the underwater ejector during ebb to reduce air bubbles. A method for purifying a tidal canal, comprising the steps of: injecting a flowing water stream toward the bottom of the canal; and floating the suspended solids deposited on the bottom of the canal and discharging the suspended matter outside the canal.
ともに所定潮流速度を有する感潮運河内に、水中エジェ
クタを配置する工程と、 引き潮時に、前記水中エジェクタを上流側から下流側に
向って移動させながら間欠的に起動し、前記水中エジェ
クタから気泡を含む水流を運河底部に向けて噴射する工
程と、 からなり、運河底部に堆積する懸濁物を浮上させて運河
外方に排出することを特徴とする感潮運河の浄化方法。2. A step of arranging an underwater ejector in a tidal canal having a predetermined tidal velocity as seawater flows in and out of the tide when the tide is low, and moving the underwater ejector from an upstream side to a downstream side during ebb tide. A process of intermittently starting while moving, and injecting a water flow containing bubbles from the underwater ejector toward the bottom of the canal, and floating the suspended matter deposited on the bottom of the canal and discharging it to the outside of the canal. A method of purifying a tidal canal characterized by the following.
ともに所定潮流速度を有する感潮運河内に設けられ、運
河底部に向けて気泡を含む水流を噴射する水中エジェク
タと、 感潮運河の引き潮時に前記水中エジェクタを間欠的に起
動させる制御器とを備え、 運河底部に堆積する懸濁物を浮上させて運河外方へ排出
することを特徴とする感潮運河の浄化装置。3. An underwater ejector which is provided in a tidal canal having a predetermined tidal flow velocity as seawater flows in and out of the tide, and injects a water flow containing bubbles toward the bottom of the canal; And a controller for intermittently activating the submerged ejector, wherein the suspended matter deposited on the bottom of the canal is lifted and discharged to the outside of the canal.
ともに所定潮流速度を有する感潮運河内に、上流側から
下流側へ向けて順次設けられ、運河底部に向けて気泡を
含む水流を噴射する複数の水中エジェクタと、 感潮運河の引き潮時に前記複数の水中エジェクタを上流
側から下流側に向って順次、所定の時間間隔をおいて各
々の水中エジェクタを一定時間だけ起動させる制御器と
を備え、 運河底部に堆積する懸濁物を浮上させて運河外方へ排出
することを特徴とする感潮運河の浄化装置。4. A flow of water containing air bubbles is sequentially provided from an upstream side to a downstream side in a tidal canal having a predetermined tidal current as seawater flows in and out of the tide when the tide is full. A plurality of underwater ejectors, and a controller that activates each underwater ejector for a predetermined time at predetermined time intervals sequentially from upstream to downstream at the time of ebb of a tidal canal. A tidal canal purification device, characterized in that suspended matter that accumulates at the bottom of the canal floats and is discharged to the outside of the canal.
ともに所定潮流速度を有する感潮運河内に設けられ、運
河底部に向けて気泡を含む水流を噴射する水中エジェク
タと、 前記水中エジェクタを上流側から下流側へ向って移動さ
せる駆動機構と、 感潮運河の引き潮時に前記駆動機構により前記水中エジ
ェクタを上流側から下流側に向って移動させながら、前
記水中エジェクタを間欠的に起動する制御器とを備え、 運河底部に堆積する懸濁物を浮上させて運河外方へ排出
することを特徴とする感潮運河の浄化装置。5. An underwater ejector which is provided in a tidal canal having a predetermined tidal flow velocity as seawater flows in and out of the tide, and injects a water flow containing bubbles toward the bottom of the canal; A drive mechanism for moving the underwater ejector from the upstream side to the downstream side by the drive mechanism at the time of ebb of a tidal canal, and a controller for intermittently starting the underwater ejector A purification device for a tidal canal, comprising: suspending suspended matter that accumulates at the bottom of the canal and discharging the suspended matter outside the canal.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4941393A JP3258749B2 (en) | 1993-03-10 | 1993-03-10 | Method and apparatus for purifying tidal canal |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4941393A JP3258749B2 (en) | 1993-03-10 | 1993-03-10 | Method and apparatus for purifying tidal canal |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH06262199A JPH06262199A (en) | 1994-09-20 |
| JP3258749B2 true JP3258749B2 (en) | 2002-02-18 |
Family
ID=12830380
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP4941393A Expired - Fee Related JP3258749B2 (en) | 1993-03-10 | 1993-03-10 | Method and apparatus for purifying tidal canal |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3258749B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US6369045B1 (en) | 1993-06-25 | 2002-04-09 | Smithkline Beecham P.L.C. | Phospholipase A2 inhibitors thereof and use of same in diagnosis and therapy |
Families Citing this family (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH10235397A (en) * | 1997-02-26 | 1998-09-08 | Arimitsu Kogyo Kk | Aerobic treatment and aerobic treatment apparatus |
| JP5466615B2 (en) * | 2010-10-14 | 2014-04-09 | 株式会社楢崎製作所 | Water quality improvement method and apparatus for tidal river |
| WO2016059682A1 (en) * | 2014-10-15 | 2016-04-21 | 三菱重工業株式会社 | Natural water treatment control apparatus, natural water treatment system, natural water treatment control method, and program |
-
1993
- 1993-03-10 JP JP4941393A patent/JP3258749B2/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US6369045B1 (en) | 1993-06-25 | 2002-04-09 | Smithkline Beecham P.L.C. | Phospholipase A2 inhibitors thereof and use of same in diagnosis and therapy |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH06262199A (en) | 1994-09-20 |
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