JPH0543842Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a defoaming device for eliminating foam generated on the surface of water such as seawater flowing in a waterway.

[Conventional technology]

For example, in power plants, chemical plants, steel plants, etc., seawater is used for various purposes such as cooling, and for this reason, waterways are provided for introducing and discharging seawater.

Seawater flowing through such waterways has the problem of many bubbles forming and floating on the water surface due to various reasons. The following methods are known as means for eliminating such bubbles.

(a) Add an antifoaming agent to the area where foam is generated on the water surface,
A method of defoaming using this antifoaming agent.

(b) A method in which seawater is sprayed onto the surface of the water where bubbles are generated, and the foam is extinguished by the sprayed seawater.

(c) A method of defoaming by crushing the foam by mechanical force using a defoaming device such as that disclosed in Japanese Utility Model Application Publication No. 62-103496.

FIG. 8 is a schematic perspective view showing an example of the above-mentioned defoaming device. As shown in Figure 8, this device:
A plate blade 1 rotated in a horizontal plane by a motor 15
6 and a float 17 for holding the plate blade 16 in a space immediately above the water surface, and the plate blade 16 rotated by a motor 15 crushes and defoams the bubbles. There is.

[Problem to be solved by the invention] The method of defoaming using the defoaming agent in (a) above includes the following:
The added antifoaming agent may contaminate seawater and cause pollution problems.

The above method (b) of defoaming by spraying seawater in a shower has the problem that shellfish mixed in the seawater adhere to the spray nozzle, causing the nozzle to become clogged. In addition, the method of crushing and eliminating bubbles using mechanical force using the defoaming device (c) above also has the problem that shellfish mixed in seawater adhere to the mechanical structure of the device, making it difficult to drive the device. occurs. Therefore, in the case of the methods (b) and (c) above, the nozzle and the device must be frequently maintained and repaired, which requires a great deal of labor and expense.

Therefore, the purpose of this invention is to remove bubbles generated on the surface of water such as seawater flowing through a waterway without using chemicals and without causing problems due to adhesion of shellfish mixed in seawater. The object of the present invention is to provide a device for defoaming simply, accurately, and economically.

[Means to solve the problem]

The device of this invention has floats on the lower surfaces of both ends, which are floated in the width direction of the waterway at an angle within a horizontal plane with respect to the water flow direction, for collecting bubbles generated on the water surface of the waterway. and a weir whose both ends are in contact with the side wall of the waterway through a sealing material, an extendable suction pipe provided on the sloping front side of the weir and having a suction port at its lower end, and the suction pipe. It is characterized in that it consists of a defoaming duct connected to the other end of the tube and having a vacuum pump, and a heater provided in the middle of the defoaming duct.

Next, this invention will be explained with reference to the drawings. Fig. 1 is a partially omitted schematic front view showing the first embodiment of the device of this invention, Fig. 2 is a partially omitted schematic plan view, and Figs. 3 and 4 are schematic side views showing the weir part. be. As shown in the drawing, the device of this invention has its both ends in contact with both side walls 1a and 1b of the waterway 1 in the width direction of the waterway 1 in order to accumulate bubbles 2 generated on the water surface of the waterway 1. Floating weir 3
and a defoaming duct 4 installed on the ground for suctioning the foam 2 accumulated by the weir 3 and destroying and defoaming it.

The weir 3 extends in the width direction of the waterway 1 as shown in FIG.
At an angle of 30 to 45 degrees to the water flow direction indicated by the arrow,
It is installed at an angle in the horizontal plane. The upper part 3a of the weir 3 is bent toward the upstream side of the waterway 1, as shown in FIG. Both ends of the weir 3 are supported by boat-shaped floats 5 as shown in FIG. 6 is installed. Therefore, the weir 3 is supported by the boat-shaped float 5 and floats on the water surface of the waterway 1,
It can follow fluctuations in water level.

A suction port 7 is provided on the inclined front side of the upper portion 3a of the weir 3, and the lower end of a suction pipe 8 is connected to the suction port 7. A telescopic tube 8' is connected to the middle of the suction tube 8, so that the suction tube 8 can be
It is formed to be expandable.

A defoaming duct 4 is connected to the suction pipe 8 . A vacuum pump 9 is installed near the end of the defoaming duct 4.
By the operation of the vacuum pump 9, the foam 2 accumulated on the weir 3 is sucked into the defoaming duct 4 through the suction pipe 8.

An electric heater 10 is provided in the middle of the defoaming duct 4, and the foam 2 passing through the defoaming duct 4 is heated by the heater 10, and its moisture is evaporated and defoamed.

FIG. 4 is a schematic side view showing another embodiment of the weir. The weir 3 of this embodiment includes a horizontal support rod 12 extending in the width direction of the waterway 1, which is rotatably supported by a boat-shaped float 5 by a support 11, and a horizontal support rod 12 that is fixed to the support rod 12 at its upper end and whose lower end is fixed to the support rod 12. It consists of a plurality of rectangular thin steel plates 13, which are located near the water surface and are inclined to face the direction of water flow. Therefore, weir 3
Since the weir 3 is free from the load due to the water flow of the water channel 1, twisting etc. will not occur in the weir 3 due to the load of the water flow.

FIG. 5 is a schematic front view showing a second embodiment of the device of this invention, and FIG. 6 is a partially omitted schematic plan view. As shown in the drawings, the device of the second embodiment comprises:
The weir 3 itself has a buoyant pipe shape,
As mentioned above, it is provided in the width direction of the water channel 1 so as to be inclined within the horizontal plane at an angle of 30 to 45 degrees with respect to the water flow direction. One side wall 1a of the waterway 1 of the weir 3
A foam accumulation box 14, as shown in cross-section in FIG. 7, is provided at the side end, contacting the side wall 1a and opening toward the upstream side of the water channel 1. A suction port 7 is provided on the upper surface 14a of the foam accumulation box 14.
The lower end of the suction tube 8 mentioned above is connected to.
The upper end of the suction tube 8 is connected to the defoaming duct 4 via the telescopic tube 8', as described above. The foam collection box 14 is supported by such a suction tube 8. A sealing material 6 is attached to both ends of the weir 3.

The foam 2 accumulated in the foam accumulation box 14 is sucked into the defoaming duct 4, and the suctioned foam 2 is defoamed within the defoaming duct 4, as described above. .

[Effect]

The weir 3 in the device of this invention is floated in the width direction of the waterway 1. Bubbles 2 flowing through the water channel 1 are stopped by the weir 3 and accumulated along the slope of the weir 3 at one end of the weir 3 or in the foam accumulation box 14 . The accumulated foam 2 is led to the defoaming duct 4 through the suction pipe 8 by the action of the vacuum pump 9. The foam 2 guided into the defoaming duct 4 is heated and defoamed by the heater 10, and is then turned into gas and released into the atmosphere.

Therefore, the entire amount of foam 2 generated in the water channel 1 can be reliably defoamed. In addition, since the treatment of the foam 2 is carried out by a defoaming duct 4 installed on the ground separately from the waterway 1, in order to treat the foam 2, the water flowing through the waterway 1 and the waterway 1, which is a foam generation system, is It will not affect seawater etc.

[Effect of idea]

As described above, this invention brings about the following industrially useful effects.

(1) The device is composed of a foam collecting mechanism consisting of a weir or weir floating in the waterway and a foam collecting box, and a defoaming mechanism consisting of a defoaming duct installed on the ground outside the waterway. Therefore, there is no problem with the defoaming mechanism due to shellfish in the seawater.
Maintenance costs are minor.

(2) The defoaming duct, which is the defoaming mechanism, has a simple structure consisting mainly of piping, so the equipment cost, operating cost, etc. are small.

(3) Since the defoaming mechanism is installed outside the process system and does not use chemicals, it does not cause pollution problems due to foreign contamination and can be applied to a variety of processes.

(4) It is possible to reliably eliminate all the foam generated in the waterway.

[Brief explanation of drawings]

Fig. 1 is a partially omitted schematic front view showing the first embodiment of this invention, Fig. 2 is a partially omitted schematic plan view, Figs. 3 and 4 are schematic side views showing the weir portion, and Fig. 5. 6 is a partially omitted schematic plan view, FIG. 7 is a vertical cross-sectional view of the foam collection box, and FIG. 8 is a schematic perspective view showing an example of a conventional device. It is a diagram. In the drawing, 1... waterway, 2... foam, 3...
Weir, 4... Defoaming duct, 5... Ship-shaped float, 6... Sealing material, 7... Suction port, 8... Suction pipe, 8'... Telescopic tube, 9... Vacuum pump, 10...
... Heater, 11 ... Pillar, 12 ... Support rod, 13
...Strip-shaped thin steel plate, 14...Bubble accumulation box, 15...
Motor, 16...plate blade, 17...float.

Claims (1)

[Claims for Utility Model Registration] 1. A floating device on the lower surface of both ends of the waterway, which is installed in the width direction of the waterway and inclined within a horizontal plane with respect to the water flow direction, for collecting bubbles generated on the water surface of the waterway. a weir having a float, both ends of which are in contact with the side walls of the waterway via a sealing material; and a retractable suction pipe provided on the inclined front side of the weir and having a suction port at its lower end. A defoaming device comprising: a defoaming duct connected to the other end of the suction pipe and having a vacuum pump; and a heater provided in the middle of the defoaming duct. 2. In order to accumulate bubbles generated on the water surface of the waterway, a floating device is installed in the width direction of the waterway, inclined within a horizontal plane with respect to the water flow direction, has buoyancy itself, and has a sealing material at both ends. a weir, a foam collection box provided on the inclined front side of the weir, a suction port provided on the top surface of the foam collection box, and an extendable suction pipe whose lower end is connected to the suction port. A defoaming device comprising: a defoaming duct connected to the suction pipe and having a vacuum pump; and a heater provided in the middle of the defoaming duct.