A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
METHOD AND DEVICE FOR DISCHARGING FLOATING MUD
PROBLEM TO BE SOLVED: To provide a floating mud discharge method and a floating mud discharge device capable of safely discharging floating mud in a water intake channel of a thermal power plant or a nuclear power plant.SOLUTION: A floating mud discharge method using a floating mud discharge device 1 includes: a hose installation step in which an end of a string 3 is inserted into a water inlet 11 and submerged inside a tunnel section 21, and the string 3 is moved in a direction of an arrow A along with a water flow inside the tunnel section 21 to reach a branching location 22, and the string 3 is pulled up from a vertical hole inlet 24 through a vertical hole 23, thus installing a hose 4 by leading the hose to the vertical hole inlet 24 from the inlet 11; and a floating mud discharge step in which an end of the hose 4 is connected to a water discharge pump 2 and the water discharge pump 2 is driven to absorb from the hose 4 seawater around an end on the tunnel section 21 side, thereby absorbing from the hose 4 floating mud X floating or precipitating in the tunnel section 21. The configuration allows the floating mud to be discharged safely in a water intake channel.SELECTED DRAWING: Figure 2
【課題】火力発電所や原子力発電所の取水路内で安全に浮泥を排出することが可能な浮泥排出方法及び浮泥排出装置を提供する。【解決手段】浮泥排出装置1を使用した浮泥排出方法は、取水口11に紐3の先端を挿入してトンネル部21内に沈め、トンネル部21内の水の流れに従って紐3を矢印A方向へ移動させて分岐箇所22に到達させ、紐3を縦孔23を経由して縦孔入口24から引き上げることにより、ホース4を取水口11から縦孔入口24へ導通させるホース導通工程と、ホース4の先端を排水ポンプ2に接続し、排水ポンプ2を駆動してホース4からトンネル部21側先端周辺の海水を吸引し、これに伴いトンネル部21内の浮遊または沈殿している浮泥Xをホース4から吸引する浮泥排出工程と、を有している。これにより、取水路内で安全に浮泥を排出することが可能になる。【選択図】 図2
METHOD AND DEVICE FOR DISCHARGING FLOATING MUD
PROBLEM TO BE SOLVED: To provide a floating mud discharge method and a floating mud discharge device capable of safely discharging floating mud in a water intake channel of a thermal power plant or a nuclear power plant.SOLUTION: A floating mud discharge method using a floating mud discharge device 1 includes: a hose installation step in which an end of a string 3 is inserted into a water inlet 11 and submerged inside a tunnel section 21, and the string 3 is moved in a direction of an arrow A along with a water flow inside the tunnel section 21 to reach a branching location 22, and the string 3 is pulled up from a vertical hole inlet 24 through a vertical hole 23, thus installing a hose 4 by leading the hose to the vertical hole inlet 24 from the inlet 11; and a floating mud discharge step in which an end of the hose 4 is connected to a water discharge pump 2 and the water discharge pump 2 is driven to absorb from the hose 4 seawater around an end on the tunnel section 21 side, thereby absorbing from the hose 4 floating mud X floating or precipitating in the tunnel section 21. The configuration allows the floating mud to be discharged safely in a water intake channel.SELECTED DRAWING: Figure 2
【課題】火力発電所や原子力発電所の取水路内で安全に浮泥を排出することが可能な浮泥排出方法及び浮泥排出装置を提供する。【解決手段】浮泥排出装置1を使用した浮泥排出方法は、取水口11に紐3の先端を挿入してトンネル部21内に沈め、トンネル部21内の水の流れに従って紐3を矢印A方向へ移動させて分岐箇所22に到達させ、紐3を縦孔23を経由して縦孔入口24から引き上げることにより、ホース4を取水口11から縦孔入口24へ導通させるホース導通工程と、ホース4の先端を排水ポンプ2に接続し、排水ポンプ2を駆動してホース4からトンネル部21側先端周辺の海水を吸引し、これに伴いトンネル部21内の浮遊または沈殿している浮泥Xをホース4から吸引する浮泥排出工程と、を有している。これにより、取水路内で安全に浮泥を排出することが可能になる。【選択図】 図2
METHOD AND DEVICE FOR DISCHARGING FLOATING MUD
浮泥排出方法及び浮泥排出装置
IKEDA RYOJI (author)
2017-08-03
Patent
Electronic Resource
Japanese
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