KR101494678B1 - Ballast water treatment apparatus - Google Patents

Abstract

An object of the present invention is to provide a ship ballast water treatment apparatus which does not generate toxic substances and has high treatment efficiency.
In order to accomplish the above object, the present invention provides a ship ballast water treatment apparatus for treating ballast water flowing in and out of a ship to maintain equilibrium of the ship, the apparatus comprising: a main pipe for guiding the ballast water to the storage tank; A pump installed in the main pipe for sucking the ballast water and transferring the ballast water to the main pipe; An ultrasonic device installed in the pump rear end main pipe to emit ultrasonic waves to the ballast water flowing in the main pipe; A filter installed downstream of the ultrasonic device for filtering the ballast water; A first vortex generating unit installed at a downstream end of the filter to form a vortex; An ion water running device installed at a downstream end of the first vortex generating section for ionizing the ballast water; And a UV sterilizer installed at a rear end of the ion water conserving apparatus to sterilize the ballast water to guide the ballast water to the ballast water storage tank.

Description

Technical Field [0001] The present invention relates to a ballast water treatment apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ship ballast water treatment apparatus, and more particularly, to a ship ballast water treatment apparatus which is environmentally friendly and has excellent sterilizing power.

The ballast water is filled in the storage tanks formed on both sides of the bottom of the vessel to prevent the vessel from losing its balance when the cargo is unloaded from the vessel or when the vessel is operated with a very small amount of cargo loaded on the vessel. Buoyancy adjustment means fresh water or sea water.

Since the marine equilibrium water is used for freshwater or seawater in the area filled with ballast water, various microorganisms such as pathogenic bacteria and plankton contained in the single or seawater in the area are inhabited, To freshwater or coastal waters may cause serious marine pollution and destruction of ecosystems due to ship ballast water.

Based on this situation, in 1996, in the United States, the law on national invasive species was enacted, requiring the management and control of ship equilibrium by mandating exotic species as an intruder. In Australia, the quarantine law was amended to revise ship equilibrium It is stipulated as import cargo and quarantine directly.

On the other hand, the International Maritime Organization (IMO) concluded an international agreement in February 2004 and, from 2009, ordered to equip ships with the necessary equipments for disinfection of ship equilibrium water. In case of violation, And prohibited all ports from entering.

Accordingly, various techniques for treating ship ballast water have recently been developed. For example, as disclosed in Korean Patent No. 769834 and Korean Patent Registration No. 802889, Sterilization and purification treatment techniques.

As described above, the conventional ballast water treatment apparatus using ozone is excellent in the efficiency of the sterilization treatment itself, but in some cases, toxic substances such as total residual oxides are generated in the sterilization treatment process. Is not a problem for long-haul vessels because it decomposes spontaneously over time, but may be a problem in emergency situations where ship ballast water must be discharged at short-range operations or when toxic materials are not decomposed .

Therefore, there is a need for a new type of equilibrium document processing apparatus having high sterilization characteristics without generating toxic substances.

It is an object of the present invention to provide a ship ballast water treatment apparatus which is free from the generation of toxic substances and has high treatment efficiency.

In order to accomplish the above object, the present invention provides a ship ballast water treatment apparatus for treating ballast water flowing in and out of a ship to maintain equilibrium of the ship, the apparatus comprising: a main pipe for guiding the ballast water to the storage tank; A pump installed in the main pipe for sucking the ballast water and transferring the ballast water to the main pipe; An ultrasonic device installed in the pump rear end main pipe to emit ultrasonic waves to the ballast water flowing in the main pipe; A filter installed downstream of the ultrasonic device for filtering the ballast water; A first vortex generating unit installed at a downstream end of the filter to form a vortex; An ion water running device installed at a downstream end of the first vortex generating section for ionizing the ballast water; And a UV sterilizer installed at a rear end of the ion water conserving apparatus to sterilize the ballast water to guide the ballast water to the ballast water storage tank.

Preferably, the shock wave generator further comprises a shock wave generator for generating shock waves or bubbles using external air pressure, wherein a shock wave or a bubble generated in the shock wave generator is transmitted to a main pipe between the filter and the first vortex generating unit, And the side surface of the generating portion and the side surface of the second vortex generating portion, respectively.

More preferably, the main vortex between the second vortex generator and the UV sterilizer is provided with a descaling device.

More preferably, the bypass pipe is branched from the main pipe before the pump and is connected to the front end of the main pipe through which the shock wave or the bubble is supplied, and between the rear end of the main pipe to which the shock wave or bubble is supplied and the first vortex generation unit And further comprising a main valve to be installed, wherein the filter is backwashed by the shock wave generator.

More preferably, the main tube at the rear end of the ultrasonic generator further comprises a magnetizing device.

More preferably, a main valve for opening and closing the main pipe is provided between the filter and the first vortex generating unit at all times, and the UV sterilizing apparatus further includes an ozone generator.

The ship ballast water treatment apparatus according to the present invention treats ship ballast water by using a conventional filter, an ion water treatment apparatus, a scale removal apparatus and a UV sterilizing apparatus, and adds air shock waves and air bubbles in conjunction with the above apparatuses, It is possible to provide an eco-friendly ship ballast water treatment apparatus which does not have a separate water treatment efficiency and pest generation.

1 is a block diagram of a ship ballast water treatment apparatus according to the present invention,
2 is a configuration diagram of the vortex generating unit shown in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, a ship ballast water treatment apparatus 100 according to the present invention includes a main pipe 10 connected to an inlet 1, a pump 11 installed on the main pipe 10, an ultrasonic device 20 A filter 30, a first vortex generator 40, an ion water treatment device 50, a second vortex generator 60, a scale removal device 70, a UV sterilizer 80, And an outlet port 2 for discharging the treated water to the main pipe 10. A shock wave generator 90 for supplying shock waves to a plurality of points of the main pipe 10 and a bypass pipe 12 branched to the side of the main pipe 10 ).

First, the ballast water flows into the main pipe 10 through the inlet 1. Of course, a pump 11 is installed at the inlet of the main pipe 10 to suck the ballast water through the inlet 1 and transfer it to the main pipe 10.

The pump 11 is a conventional pump structure and determines the capacity according to the processing capacity and drives the pump 11 by setting the operating pressure according to the degree of resistance generated by the position members at the rear end.

On the other hand, the ultrasonic device 20 is installed in the main pipe 10 at the rear end of the pump 11. The ultrasonic device 20 includes an ultrasonic oscillator and an ultrasonic transducer. The ultrasonic transducer is configured so as to surround the outside of the main tube 10. The ultrasonic transducer 20 is also configured to transmit ultrasonic waves to the inside of the main tube 10, It acts to sterilize the microorganisms and the like existing in the water.

A magnetizer 13 may be installed at the rear end of the ultrasonic device 20 so as to convert the equilibrium water flowing into the main pipe 10 into hexagonal water to suppress the scale of the main pipe 10 from being generated.

A filter 30 is located in the main pipe 10 at the rear end of the magnetizing device 12. [ In the filter 30, a metal, in particular a stainless steel net, is rolled up, and the ballast passing through the filter 30 is filtered by the filter 30.

The degree of the filter 30 may be selectively applied. If necessary, the degree of the filter 30 may be configured in multiple stages, and the degree of the filter may be sequentially changed.

The first vortex generating unit 40 is connected to the rear end main pipe 10 of the filter 30.

2, the first vortex generators 40 are vertically connected to the main vortex generator 10, and a cylindrical body 41 and a helix 42 located inside the body are formed And a spiral portion 42. The spiral portion 42 has two outlets 43 and one inlet 44 and the main pipe 10 is connected to the inlet 44.

The ion vortex generator 50 is connected to each of the outlets 43 of the first vortex generator 40. The ion intoflower 50 can be a general ion activated device, .

The second vortex generating unit 50 is connected to the outlet of the ion water treatment apparatus 50. The second vortex generating part 60 has the same structure as the first vortex generating part 40 and has a body 61 and a spiral part 62. The inlet 64 and the outlet 63 are formed in the first vortex generating part 60, Is opposite to the inlet (44) and the outlet (43) of the outlet (40).

A descaler 70 is located at the rear end of the second vortex generator 50. The scale removing device 70 is suitable for removing the scale of the ballast water storage tank and the pipeline through which the ballast water is moved, using a physical method using an ion exchange method or the like.

A UV sterilizer 80 is located at the downstream end of the descaler 70 to finally sterilize the microorganisms or the like containing the ballast water and discharge the ballast water to the ballast water storage tank through the outlet 2.

The UV sterilizer 80 may also be a sterilizer using a conventional UV lamp, and an ozone generator may be added if necessary. Particularly, since the ozone generator may generate some residual oxides or the like, it is preferable that the ozone generator is added in such an amount that the harmful substance is produced at a level lower than the reference value.

Meanwhile, a bypass pipe 12 branched from the main pipe 10 at the front end of the pump 10 and connected to the rear end of the filter 30 is installed. The bypass pipe 12 is for supplying the ballast water for cleaning the pump 10 and the filter 30, and includes a valve for opening and closing and a check valve.

A main valve 15 capable of opening and closing the main pipe 10 is disposed between the filter 30 of the main pipe 10 and the first vortex generators 40 and is connected to the main pipe 10, The flow of the water can be stopped.

The ship ballast water treatment apparatus 100 according to the present invention includes an impact wave generator 90 as shown in FIG.

The shock wave generator 90 generates shock waves through a pneumatic valve 92 through a pneumatic inlet pipe 91. The pneumatic valve 92 is operated to repeatedly open and close at regular intervals.

The pneumatic valve 92 includes a separate control device. The pneumatic valve 92 can be determined by a user's designation. However, the pneumatic valve 92 is normally set to repeat opening and closing at a period of 1 second to 5 seconds.

The pneumatic pressure supplied through the pneumatic inlet pipe 91 is 5 kgf / cm < ² > To 10 kgf / cm ² , and a shock wave is generated in the pneumatic range.

The shock wave generator 90 includes a pneumatic discharge pipe 93 through which the shock wave is discharged through the pneumatic discharge pipe 93. The pneumatic discharge pipe 93 may have a plurality of pneumatic discharge pipes 93. [

1, the pneumatic discharge pipe 93 communicates with the main pipe 10 between the filter 30 and the first vortex generators 40, and the first vortex generators 40, And also to the side surfaces of the second vortex generators 50, respectively.

The shock wave generator 90 includes a bubble generating function, and can be implemented to generate shock waves and bubbles selectively.

That is, shock waves or bubbles can be supplied through the pneumatic discharge pipe 93.

The shock wave has a function of disinfecting the microorganisms contained in the ballast water by impact, and additionally performs a cleaning action to remove scales generated in the pipeline.

Further, the shock wave or bubble continuously stimulates the surface of the UV lamp included in the UV sterilizer 80 to prevent adhesion of scale or the like in advance.

The filter 30 may be cleaned when the main valve 15 is closed and the bypass pipe 12 is opened and the shock wave or bubble is supplied through the shock wave generator 90. Particularly, the shock wave is supplied to the reverse side of the filter 30 and discharges foreign substances adhered to the inside of the filter 30 through the inlet of the filter 30, which is advantageous for washing the filter 30, Perform regularly.

If necessary, the chlorine-introducing device can be added through the bypass pipe 12. The chlorine has an effect of improving the sterilizing property while preventing environmental damage when a trace amount of chlorine is added at a concentration below a certain level.

Since the air is supplied to the first vortex generators 40 and the second vortex generators 50 in addition to the shock waves or bubbles, the second vortex generators 50 and the second vortex generators 50 are operated in conjunction with the vortex to provide an effect of scale removal, It is interlocked with shock wave and provides efficient characteristics for disinfection and descaling.

The apparatus for treating ballast water according to the present invention 100 has a high sterilizing characteristic by mixing ultrasound, magnetic charger, filtering, shock wave, bubble, UV sterilization and the like, So that maintenance is easy.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And all of the various forms of embodiments that can be practiced without departing from the technical spirit.

1: inlet 2: outlet
10: main pipe 11: pump
12: Bypass tube 13: Charger
15: Main valve 20: Ultrasonic device
30: filter 40: first vortex generating part
41: body 42:
43: outlet 44: inlet
50: ion-conducting device 60: second vortex generating part
61: body 62:
63: exit 64: entrance
70: Scale removing device 80: UV sterilizing device
90: Shock wave generator 91: Pneumatic inlet pipe
92: Pneumatic valve 93: Pneumatic outlet pipe
100: Ballast water treatment equipment for ships

Claims (6)

delete delete delete A ship ballast water treatment apparatus for treatment of ballast water flowing in and out of a ship to maintain equilibrium of the ship,
A main pipe for introducing the ballast water into the storage tank;
A pump installed in the main pipe for sucking the ballast water and transferring the ballast water to the main pipe;
An ultrasonic device installed in the pump rear end main pipe to emit ultrasonic waves to the ballast water flowing in the main pipe;
A filter installed downstream of the ultrasonic device for filtering the ballast water;
A first vortex generating unit installed at a downstream end of the filter to form a vortex;
An ion water running device installed at a downstream end of the first vortex generating section for ionizing the ballast water;
A second vortex generating unit installed at a rear end of the ion water conserving apparatus to form a vortex; And
And a UV sterilizer installed at a downstream end of the second vortex generator to sterilize the ballast water to guide the ballast water to the ballast water storage tank,
And a shock wave generator for generating shock waves or bubbles by using an external pneumatic pressure, wherein a shock wave or a bubble generated in the shock wave generator is transmitted through a main pipe between the filter and the first vortex generating unit, A second vortex generating unit for generating a second vortex generating unit,
A scale removing device is installed in a main pipe between the second vortex generating part and the UV sterilizing device,
A bypass pipe branched from the main pipe before the pump and connected to the front end of the main pipe through which the shock wave or the bubble is supplied and a main valve installed between the rear end of the main pipe to which the shock wave or the bubble is supplied and the first vapors generation unit Wherein the filter is backwashed by the shock wave generator.
The ship ballast water treatment system according to claim 4, wherein the main pipe at the downstream end of the ultrasonic generator further comprises a magnetizer.
The ship ballast water treatment apparatus according to claim 5, wherein the UV sterilizing apparatus further comprises an ozone generator.

Images