KR20150129550A - Apparatus for testing a ballast water treatment device and method thereof - Google Patents

Abstract

The present invention provides an apparatus for testing a ballast water treatment device. The device includes a sea water mixing tank part; a first sea water processing device which processes microbes existing in the sea water leaked from the mixing tank part; a process tank part; a first mixing wire part; a second mixing wire part; a process wire part; and a control part which controls the mixing tank part, the process tank part, the first mixing wire part, the second mixing part, or the process wire part.

Description

TECHNICAL FIELD [0001] The present invention relates to a test apparatus for a ballast water treatment apparatus and a control method for the ballast water treatment apparatus,

The present invention relates to a test apparatus and a control method for a ballast water treatment apparatus for testing the performance of a ballast water treatment apparatus for treating a ballast water of a ship.

Ballast water used in ships refers to buoyancy regulating fluid which is filled or discharged into a ballast tank placed under the ship to maintain the balance of the ship.

To fill these ballast tanks with ballast water, fresh or seawater is used in the area where the vessel is located. Conversely, to discharge the ballast water from the ballast tank, the ballast is discharged from where it is located.

Here, if the equilibrium water is filled in the ship and the discharge area is the same, the big problem may not occur. However, if the sea water in the ballast water filled area or various kinds of creatures (plankton, fungus, etc.) There are problems that can lead to serious marine pollution and destruction of ecosystems.

Therefore, such ballast water must be sterilized and discharged from the vessel. Such ballast water treatment is regulated by the International Maritime Organization (IMO) or the United States, Australia, and Europe.

In particular, the United States recently has separate ballast water management regulations for each state (New York, California, etc.) and ballast water management regulations (CFR) for the US Coast Guard (USCG), and recently the US Environmental Protection Agency (EPA) And the Coast Guard.

Therefore, various ballast water treatment devices have been developed to comply with the regulations of each country. However, in order to test the performance of the ballast water treatment device developed, there is a problem of time and cost , Accurate testing can not be achieved.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a test apparatus and a control method for quickly and accurately testing the performance of a ballast water treatment apparatus.

It is still another object of the present invention to provide a test apparatus and a control method capable of simultaneously testing a plurality of ballast water treatment apparatuses.

In order to attain the above object, the present invention provides a method for producing a microorganism, comprising the steps of: receiving a first tank containing initial marine water; a second tank for culturing the microorganism; and an additive containing starch, silica, silica or glycoside A mixing tank portion including a sixth tank to which the first tank is connected; A first marine water treatment device for treating the microorganisms present in the marine water flowing out from the mixing tank; A third tank for receiving the marine water treated by the first marine water treatment apparatus, a fourth tank for receiving marine water flowing out from the mixing tank, and a third tank for receiving marine water flowing out from the third tank or the fourth tank. And a fifth tank for containing microorganisms or dirt; A second piping section branched from the first piping section to supply marine water to the second tank, and a second piping section connected to the first tank to supply marine water to the first tank, A fourth piping section for introducing the marine water mixed with the microorganisms flowing out of the second tank into the third piping section; A second piping portion branched from the sixth tank for supplying the marine water to the sixth tank and a tenth pipe portion for introducing the marine water mixed with the additives of the sixth tank into the third piping portion, part; A twelfth piping section branched from the eleventh piping section to supply fresh water to the second tank, and a twelfth piping section branched from the eleventh piping section to supply fresh water to the first tank, A tenth pipe portion branched from the eleventh pipe portion to supply fresh water to the fourth tank and a second pipe portion branched from the eleventh pipe portion to be desalinated in the sixth tank, A second mixed wiring part including a sixteenth piping part for supplying the first mixed wiring part; A fifth piping section for introducing the marine water flowing out from the first marine water treatment apparatus into the third tank, and a fifth piping section branched from the third piping section to discharge marine water flowing out from the first tank and the second tank, A seventh pipe portion for discharging the marine water flowing out from the third tank to the outside; and a sixth pipe portion for introducing marine water flowing out from the fourth tank into the seventh pipe portion And a ninth piping portion branched from the seventh piping portion to introduce marine water flowing out of the third tank or marine water flowing out of the fourth tank into the fifth tank, part; And a controller for controlling the mixing tank portion, the treatment tank portion, the first mixed wiring portion, the second mixed wiring portion, or the processing wiring portion.

Preferably, the control unit controls the culture environment of the microorganisms accommodated in the second tank.

Preferably, each of the piping portions includes a pipe for guiding the flow of the fluid; A pump provided in the pipe to flow the fluid; And a valve provided in the pipe to adjust a flow rate of the fluid.

Preferably, the controller controls a valve or a pump of each of the first mixed wiring portion and the second mixed wiring portion to adjust a salt condition, a microbial content amount, or a marine water pollution condition of the predetermined marine water.

Preferably, the control unit controls the treatment tank unit or the treatment wire unit to discharge the marine water contained in each tank of the treatment tank unit after a predetermined time.

The present invention also relates to a method for controlling a marine water composition, A treatment step of treating the marine water for which the component is adjusted with a marine water treatment apparatus; A preserving step of conserving the treated marine water; And a discharge step of discharging the preserved marine water. The present invention also provides a control method for a test apparatus for a ballast water treatment apparatus.

Preferably, the adjusting step is performed by mixing and adjusting initial marine water, microorganisms, or an additive including starch, silica, silica or glycoside.

Preferably, the discharging step further includes a reprocessing step of re-inflowing the marine water to the marine water treatment apparatus when the treated marine water does not satisfy the predetermined marine water quality.

Preferably, the discharging step further comprises a neutralization step of neutralizing the treated marine water.

Preferably, the discharging step further includes a sedimentation step of precipitating contaminants introduced into the treated marine water.

The present invention can precisely provide an environment according to various ballast water treatment regulations by freely adjusting the environment of the initial ocean water including the first tank, the second tank or the third tank.

Further, the present invention can reduce the test time of the ballast water treatment apparatus, reduce the test cost, and realize the accuracy of the test result.

Further, the present invention can simultaneously test two or more ballast water treatment apparatuses.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention; FIG.
2 is a view showing a flow in which initial marine water is supplied to a first tank, a second tank, or a sixth tank according to an embodiment of the present invention;
3 illustrates the flow of mixed ocean water according to one embodiment of the present invention to a third tank and a fourth tank.
FIG. 4 illustrates the flow of treated marine water in a marine water treatment apparatus according to an embodiment of the present invention. FIG.
FIG. 5 is a view showing a discharge flow of marine water accommodated in a fourth tank according to an embodiment of the present invention; FIG.
6 is a schematic modular representation of a test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention.
7 is a flowchart schematically showing a control method of a test apparatus for a ballast water treatment apparatus.

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

Unless defined otherwise, all terms used herein are the same as the generic meanings of the terms understood by those of ordinary skill in the art, and where the terms used herein contradict the general meaning of the term, they follow the definitions used herein.

It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

1 is a schematic view of a test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention includes a tank portion and a pipe portion. As shown in the figure, the tank portion includes eight tanks, and the piping portion interconnects the tank portions. However, the number of the tank portion and the piping portion can be adjusted or changed by changing the test conditions.

The first tank 1 receives initial marine water and can be designed to accommodate, for example, about 500 tons of marine water. The first tank 1 is supplied with the marine water by the first piping unit 10 to be described later and the fresh water is supplied from the eleventh piping unit 110 to be described later according to the test conditions, Or fresh water. In order to maintain microorganisms present in the initial marine water, air may be supplied by an air piping unit 150, which will be described later.

The second tank 2 is arranged to cultivate the microorganisms. The second tank 2 is supplied with the marine water by the second piping unit 20 to be described later for culturing the microorganisms and receives the fresh water from the twelfth piping unit 120 to be described later according to the test conditions, This controlled ocean water or microorganisms in fresh water can be cultured. In order to efficiently cultivate the microorganism, the second tank 2 may be provided with a temperature control device (not shown), a pressure control device (not shown), and the like. It is possible.

The sixth tank 6 accommodates an additive containing starch, silica, silica or glucose, and can be arranged to provide a living environment of dirt, foreign matter and microorganisms in marine water. The sixth tank 6 can receive the marine water from the second 'piping unit 20' to be described later and receive the fresh water from the 16th piping unit 160 to be described later.

The first and second marine water treatment apparatuses 1000 and 2000 are apparatuses to be tested in a test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention, have.

Specifically, in the first and second marine water treatment apparatuses 1000 and 2000, the marine water of the first tank 1 and the microorganisms of the second tank 2 are mixed, 3 piping unit 30. The micro-organisms present in the marine water flowing into the piping unit 30 are treated. Such marine water treatment apparatuses 1000 and 2000 can provide sterilization of microorganisms using ozone, sterilization by a filter, sterilization by electrolysis, or sterilization of microorganisms by infrared rays, and toxic substances used for sterilization And may further include a neutralizing device (not shown) for neutralizing.

Although two of the first and second marine water treatment devices 1000 and 2000 are illustrated in the present invention, it is apparent that the number of the marine water treatment devices is not limited to this number.

The third tank 3 receives the treated marine water from the first marine water treatment apparatus 1000, and can discharge the treated marine water after accommodating the treated marine water for about five days, for example.

In addition, since the present invention may further include the second marine water treatment apparatus 2000 as described above, the third 'tank 3 ').

The fourth tank (4) receives the marine water mixed with the marine water of the first tank (1) and the microorganisms of the second tank (2). That is, the fourth tank 4 is provided for comparison with the third tank 3 in which the marine water sterilized by the first marine water treatment apparatus 1000 is stored. That is, when the third tank 3 discharges the marine water accommodated therein, the fourth tank 4 can discharge the accommodated marine water simultaneously or sequentially.

In addition, since the present invention may further include the second marine water treatment apparatus 2000 and the third 'tank 3' as described above, the third tank ' And may further include a 4 'tank 4'. The function of the fourth 'tank 4' may be the same as that of the fourth tank 4 described above.

The fifth tank 5 may be provided as a settling tank for receiving marine water flowing out from the third tank 4 or the fourth tank 4 to precipitate microorganisms or dirt.

That is, if the marine water having passed through the test apparatus of the present invention has a different environment from the initial marine water before the marine water is discharged to the outside, the pollutant is purified in the fifth tank 5 and finally the marine water is discharged from the test apparatus of the present invention It will be discharged.

Of course, the fifth tank 5 may not be used if the number of oceans passing through the tester satisfies predetermined conditions, and the oceans can be discharged immediately through the seventh pipe 70, which will be described later.

The present invention includes various piping sections for accommodating ocean water or fresh water in the tank section, and the piping section of the present invention will be described below. Each piping unit to be described below may include a pipe for guiding the flow of the fluid, a pump provided in the pipe for flowing the fluid, and a valve provided in the pipe for regulating the flow rate of the fluid. In addition, each of the piping sections may further include a flow meter provided in the piping to indicate a flow rate of the fluid.

Of course, as shown, at least one pump, valve or flow meter may be provided in one piping, and the pump, valve or flow meter may interact to control the flow rate that flows. Further, the flowing fluid can set the flow direction by adjusting the valve provided in the pipe.

The forward direction described below refers to the position of the flow rate before passing the pump, the valve or the flowmeter, and the rear means the position of the flow rate after passing the pump, the valve or the flowmeter.

The first piping section 10 communicates with the first tank 1 to supply the marine water. Specifically, the piping 10a of the first piping unit 10 sucks the marine water one end by the pump 10b and the other end communicates with the first tank 1 to supply the marine water. The amount of marine water flow in the first piping portion 10 can be controlled by the pump 10b and / or the valve 10c.

In addition, the first piping unit 10 may communicate with the suction piping unit 160 to suck air in the piping 10a of the first piping unit 10 to effectively flow the marine water. When the suction pipe unit 160 is provided, the pump 10b of the first pipe unit 10 may be controlled not to operate when air flows into the pipe. That is, the first piping unit 10 may further include an oil sensing sensor (not shown) in front of the pump 10b or the pump 10b, When the air is flowed into the second chamber (not shown).

The second piping section 20 may be branched from the first piping section 10 to supply the marine water to the second tank 2. Specifically, the pipe 20a of the second pipe portion 20 has one end communicated with the pipe 10a of the first pipe portion 10 and branched, and the other end communicates with the second tank 2 Ocean water can be supplied. This marine water flow can be realized by adjusting the valves 10c and 20c provided in the piping 10a and 20a of the first piping section 10 and / or the second piping section 20, respectively.

The second 'piping section 20' is branched from the second piping section 20 to supply the marine water to the sixth tank 6. The second piping section 20 ' May be implemented in the same manner as the second piping unit 20.

The third piping unit 30 may allow the marine water flowing out of the first tank 1 to flow into the first marine water treatment apparatus 1000. Specifically, the pipe 30a of the third piping unit 30 has one end communicated to the first tank 1 and the other end communicated to the first marine water treatment apparatus 1000, The pump 30b and / or the valve 30c provided in the water pump 30 can flow the marine water.

The third piping unit 30 includes a flow meter 31 and / or a sensor unit 32 on the front or rear of a portion where a fourth piping unit 40 and a tenth piping unit 100 are coupled to each other, Further, the flowing flow rate, salinity condition, microbial inclusion condition, and additive inclusion conditions can be adjusted by control of a valve or a pump.

The third piping section 30 is provided with a first sampling section 35 at the front or rear of a portion where the fourth piping section 40 and the tenth piping section 100 are to be coupled, Alternatively, you can automatically sample the state of the final mixed ocean water test.

The third piping unit 30 may include a spare third piping unit 33 in front of a portion where the fourth piping unit 40 and the tenth piping unit 100 are coupled to each other.

In the meantime, since the present invention can test at least one or more of the marine water treatment apparatuses, when the second marine water treatment apparatus 2000 is provided as shown in the figure, the second marine water treatment apparatus 2000 is branched from the third pipe unit 30, And a third piping unit 30 'for allowing the marine water flowing out of the first tank 1 to flow into the second marine water treatment unit 2000.

The fourth piping unit 40 introduces the marine water mixed with the microorganisms flowing out from the second tank 2 into the third piping unit 30. Specifically, the pipe 40a of the fourth pipe portion 40 has one end communicating with the second tank 2 and the other end communicating with the third pipe portion 30, It is possible to flow the marine water mixed with the microorganisms by the pump 40b and / or the valve 40c.

The fifth piping unit 50 may introduce the marine water flowing out of the first marine water treatment apparatus 1000 into the third tank 3. Specifically, the pipe 50a of the fifth piping unit 50 has one end communicated to the first marine water treatment apparatus 1000 and the other end connected to the third tank 3, The pump 50b and / or the valve 50c provided in the water pump 50 can flow the marine water.

The fifth piping unit 50 is provided with a second sample collecting unit 55 at the front or rear of the third tank 3 so as to be manually or automatically connected to the first water treatment apparatus 1000 The state of the treated ocean water can be sampled.

In the meantime, since the present invention can test at least one or more of the marine water treatment devices, when the second marine water treatment device 2000 is provided as shown in the figure, And a fifth pipe portion 50 'for allowing the marine water to flow into the third tank 3'.

The fifth pipe section 50 'is provided with a second sampling section 55' at the front or rear of the third tank 3 'so that the second sampling port 55' The state of the marine water processed in the processing apparatus 2000 can be sampled.

The sixth piping portion 60 is branched from the third piping portion 30 so that the marine water flowing out from the first tank 1 and the second tank 2 is introduced into the fourth tank 4 . Specifically, the pipe 60a of the sixth pipe portion 60 has one end communicating with the pipe 30a of the third pipe portion 30 and the other end communicating with the fourth tank 4, The marine water can be flowed by the pump 60b and / or the valve 60c provided in the main body 60a.

The sixth piping unit 60 includes a third sampling unit 65 at the front or rear of the fourth tank 4 to manually or automatically move the third piping unit 30 You can sample the condition of mixed ocean water.

In the meantime, since the present invention can test at least one or more of the marine water treatment devices, when the second marine water treatment device 2000 is provided as shown in the figure, And a sixth pipe portion 60 'for allowing the marine water to flow into the fourth' tank 4 '.

The sixth 'piping portion 60' is provided with a third sampling portion 65 'at the front or rear of the fourth' tank 4 'so that the third' The state of the mixed ocean water flowing in the section 30 'can be sampled.

The seventh pipe (70) is provided for discharging the marine water flowing out from the third tank (3) to the outside. Specifically, the piping 70a of the seventh piping portion 70 is connected to the third tank 3 at one end and the other end is exposed to the oceans or the outside so that the pump 70b ) And / or valve 70c to discharge the ocean water.

In the meantime, since the present invention can test at least one or more than one marine water treatment apparatus, when the second marine water treatment apparatus 2000 is provided as shown in the drawing, And a seventh pipe portion 70 'for allowing water to flow into the seventh pipe portion 70. Alternatively, the other end of the seventh piping 70 'may be exposed to the oceans or other outside without being communicated with the seventh piping 70, so that the pump 70' (70'b) and / or valve (70'c).

The seventh piping unit 70 is provided with a fourth sample collecting unit 85 at the front or rear of the third tank 3 so that the mixture discharged from the third tank 3 The state of ocean water can be sampled.

The eighth piping unit 80 may allow the marine water flowing out of the fourth tank 4 to flow into the seventh piping unit 70. Specifically, the pipe 80a of the eighth pipe unit 80 has one end communicating with the fourth tank 4 and the other end communicating with the seventh pipe unit 70, The pump 80b and / or the valve 80c. The other end of the pipe 80a of the eighth pipe unit 80 is exposed to the marine or other outside as the other end of the pipe 70a of the seventh pipe unit 70, 80b and / or valve 80c to discharge the ocean water.

The eighth piping unit 80 includes a fourth sample collecting unit 85 at the front or rear of the fourth tank 4 so as to manually or automatically mix the mixture discharged from the fourth tank 4 The state of ocean water can be sampled.

In the meantime, since the present invention can test at least one or more than one marine water treatment apparatus, when the second marine water treatment apparatus 2000 is provided as shown in the figure, the marine water flowing out from the fourth ' And an eighth pipe portion 80 'for introducing water into the eighth pipe portion 80. Alternatively, the other end of the eighth piping 80 'may be exposed to the sea or other outside as the other end of the seventh piping 70, The pump 80'b and / or the valve 80'c provided in the water supply pipe 80 '.

The ninth piping unit 90 is branched from the seventh piping unit 70 and supplies the marine water flowing out from the third tank 3 or the marine water flowing out from the fourth tank 4 to the fifth tank 3, (5). That is, when the tested marine water is contaminated with a predetermined reference value, the polluted matter is settled by flowing into the fifth tank 5 through the ninth piping 90, and then the marine water is finally discharged .

The tenth pipe (100) is provided to introduce the marine water mixed with the additives of the sixth tank (6) into the third pipe (30). Specifically, the piping 100a of the tenth piping unit 100 has one end communicating with the sixth tank 6 and the other end communicating with the piping of the third piping unit 30, And the pump 100b and / or the valve 100c provided in the water pump 100a.

In addition, the embodiment of the present invention may further include fresh water piping sections 110, 120, 130, 140, and 160 for mixing fresh water into initial ocean water or flowing only fresh water. The fresh water pipelines 110, 120, 130, 140, and 160 may be driven to clean the inside of the tank and / or the piping before or after the test, or to adjust the salinity by mixing with the marine water.

The eleventh piping section 110 can communicate with the first tank 1 to supply fresh water. Specifically, the piping 110a of the eleventh piping unit 110 is connected to the first tank 1 to supply fresh water, and one end thereof sucks fresh water through the pump 110b.

The twelfth piping unit 120 may be branched from the eleventh piping unit 110 to supply fresh water to the second tank 2. Specifically, the piping 120a of the twelfth piping unit 120 may communicate with the eleventh piping unit 110 at one end and communicate with the second tank 2 at the other end thereof to supply fresh water.

The thirteenth piping unit 130 may be branched from the eleventh piping unit 110 to supply fresh water to the third tank 3. Specifically, the pipe 130a of the thirteenth pipe 130 may communicate with the eleventh piping 110 at one end and may communicate with the third tank 3 at the other end to supply fresh water.

The fourteenth piping unit 140 may be branched from the eleventh piping unit 110 to supply fresh water to the fourth tank 4. Specifically, the piping 140a of the fourteenth piping unit 140 may communicate with the eleventh piping unit 110 at one end and communicate with the fourth tank 4 at the other end thereof to supply fresh water.

The sixteenth piping section 160 may be branched from the eleventh piping section 110 to supply fresh water to the sixth tank 6. Specifically, the piping 160a of the sixteenth piping unit 160 may communicate with the eleventh piping unit 110 at one end and communicate with the sixth tank 6 at the other end thereof to supply fresh water.

On the other hand, the present invention may further comprise the following configuration so that the number of marine water treated in the marine water treatment apparatus for testing is subjected to predetermined treatment standards or reprocessing.

The first direct piping section 1d is connected to the seventh piping section 70 and the fifth piping section 50 and connects the marine water discharged from the first marine water treatment apparatus 1000 to the seventh piping section 70, (Not shown). That is, the tested marine water can be discharged to the outside or the fifth tank 50 without going through the third tank 3. However, if the performance of the marine water treatment apparatuses 1000, 2000 to be tested is not known, the following operation of the second direct piping 2d may be performed.

The second direct piping portion 2d is connected to the seventh piping portion 70 and the third piping portion 30 so that the marine water discharged from the third tank 3 is returned to the first marine water treatment device (Not shown). That is, when the sterilization or neutralization of the tested marine water is insufficient, the marine water discharged from the third tank 3 and flowing to the seventh pipe portion 70 is introduced into the first marine water treatment apparatus 1000 again It can be reprocessed.

In the meantime, since the present invention can test at least one or more marine water treatment apparatuses, when the second marine water treatment apparatus 2000 is provided as shown in the drawing, the seventh pipe unit 70 and the fifth ' A first 'direct piping portion 1'd communicating with the first piping portion 50' for introducing the marine water discharged from the second marine water treatment device 2000 to the seventh piping portion 70, Is connected to the seventh pipe section 70 and the third pipe section 30 'and flows the marine water discharged from the third' tank 3 'back into the second marine water treatment apparatus 2000 And a second 'direct piping portion 2'd.

The fourth pipe 4 is connected to the seventh pipe portion 70 and the eighth pipe portion 80 in front of the first direct pipe portion 1d and the second direct pipe portion 2d, The outflowing marine water flows into the seventh pipe portion 70 and flows to the first marine water treatment device 1000 through the second direct pipe portion 2d so that the communication piping portions 81, As shown in FIG.

These communicating piping sections 81 and 82 include two first communicating piping sections 81 and a second communicating piping section 82 communicating with the seventh piping section 70 and the eighth piping section 80, And the first communication piping 81 and the second communication piping 82 are connected to each other to control the flow of the marine water as the valves 81c and 82c or the pump 82b.

The neutralization device 77 may further include a first direct piping part 1d and a second direct piping part 2d ) To achieve effective marine water neutralization.

In addition, the present invention may further include an air piping unit 150. The air piping unit 150 may be supplied to the marine water contained in the tank unit to provide a healthy condition. As shown, the air piping unit 150 communicates with the first tank 1, the second tank 2, the third tank 3 and / or the fifth tank 5 to provide air And can further include an air filter 151 to provide clean air with foreign matter removed.

Hereinafter, the fluid flow for each part of the test apparatus for a ballast water treatment apparatus according to the embodiment of the present invention will be described.

2 is a view showing a flow in which the initial ocean water is supplied to the first tank 1, the second tank 2, or the sixth tank 6 according to an embodiment of the present invention.

Referring to FIG. 2, the initial marine water may be introduced into the first tank 1, the second tank 2, or the sixth tank 6. Specifically, the first tank 1 is provided with the first piping section 10, the second tank 2 is provided with the second piping section 20, and the sixth tank 6 is provided with the above- With a second 'piping section 20', initial marine water can be supplied, which can be supplied simultaneously or separately by pump and / or valve control of each piping section.

2, fresh water may be supplied to the first tank 1, the second tank 2, or the sixth tank 6, and this fresh water supply may be controlled by adjusting the salinity or cleaning each tank .

FIG. 3 is a diagram showing the flow of mixed sea water according to an embodiment of the present invention to the third tank 3 and the fourth tank 4.

3, the number of marine water mixed with the initial ocean water accommodated in the first tank 1, the marine water mixed with the microorganisms stored in the second tank 2, and the additives stored in the sixth tank 6 are set And the flow rate is adjusted by the valves and / or the pumps of the respective piping sections to be introduced into the third piping section 30 so as to satisfy the test marine water conditions.

As described above, each of the first pipe section 10, the fourth pipe section 40, and the tenth pipe section 100 may include a pipe, a pump, a valve or a flow meter, 30 analyzes the components of the final mixed marine water including the sensor unit to adjust the flow rates of the first pipe unit 10, the fourth pipe unit 40, and the tenth pipe unit 100, It is possible to flow mixed ocean water satisfying

In addition, as described above, the third sampling section 35 is disposed in the third piping section 30 to manually or automatically sample mixed marine water flowing into the piping of the third piping section 30 .

For example, assuming that the flow rate of the mixed marine water flowing into the third piping unit 30 is 500 tons, the marine water flowing into the first marine water treatment apparatus 1000 through the third piping unit 30 The number of marine water flowing into the fourth tank 4 through the sixth piping unit 60 may be 250 tons.

That is, the amounts of the marine water treated by the first marine water treatment apparatus 1000 and flowing into the third tank 3 and the marine water flowing into the fourth tank 4 are the same, And / or by a pump.

On the other hand, since the present invention can test at least one or more than one marine water treatment apparatus, when the second marine water treatment apparatus 2000 is provided as shown, the flow shown in Fig. 2 is transmitted to the second marine water treatment apparatus The third tank 3 'and the fourth tank 4' are connected to the first tank 2, the third tank 3 ', the third tank 3', the fifth tank 5 ', the sixth tank 6' ). ≪ / RTI > In this case, the mixed ocean water is divided into four equal parts and is uniformly introduced into the third tank 3 ', the third' tank 3 ', the fourth tank 4 and the fourth' tank 4 ' The mixed water is firstly uniformly introduced into the first tank 3 and the fourth tank 4 and mixed with the third tank 3 'and the fourth tank 4' at a time interval (for example, one day) Marine water may be introduced.

FIG. 4 is a view showing the flow of the treated marine water in the marine water treatment apparatus according to the embodiment of the present invention.

4, the marine water treated in the first marine water treatment apparatus 1000 is accommodated in the third tank 3, and the marine water is accommodated in the third tank 3 for a few days, for example, five days Can be. Thereafter, the tested marine water is discharged from the third tank 3 and flows into the seventh pipe section 70. However, if the tested sea water remains a component such as lactose and is less neutralized or if the test condition is to treat the marine water to the first marine water treatment apparatus 1000 more than once, the second direct piping 2d ) To the first marine water treatment apparatus 1000 and can be reprocessed.

Thereafter, when the reprocessing is completed, the reprocessed marine water flows back to the seventh pipe section 70 through the third tank 3, or flows through the first direct piping section 1d 3 tank (3) without passing through the third pipe (3).

At this time, the reprocessed marine water flowing back to the seventh piping unit 70 can be flowed once again or not immediately after being neutralized by the neutralization unit 77 and discharged immediately outside, The first tank 5 and the second tank 9 are connected to each other.

On the other hand, since the present invention can test at least one or more than one marine water treatment apparatus, when the second marine water treatment apparatus 2000 is provided, the flow shown in Fig. 4 and the above- The first tank 2000, the third tank 3 ', the first' direct piping 1'd, the second 'direct piping 2'd, and the like.

FIG. 5 is a view showing a discharge flow of marine water accommodated in the fourth tank 4 according to an embodiment of the present invention.

5, the untested mixed marine water received in the fourth tank 4 is discharged to the eighth pipe section 80 through the receiving period of the same period as that of the third tank 3, .

Thereafter, the mixed marine water flowing into the eighth pipe portion 80 flows into the seventh pipe portion 70, and can be the flow described with reference to Fig. That is, the mixed ocean water flowing into the seventh piping section 70 through the eighth piping section 80 is reprocessed through the second direct piping section 2d and the first marine water treatment apparatus 1000, And the contaminants can be settled and discharged from the fifth tank 5 through the ninth piping 90. [

On the other hand, since the present invention can test at least one or more of the marine water treatment apparatuses, if the second marine water treatment apparatus 2000 is provided, the flow shown in Figs. 4 and 5 and the above- The first piping portion 80 ', the fourth' tank 4 ', the second marine water treatment device 2000, the first' direct piping portion 1'd, the second 'direct piping portion 2'd, etc. Can be applied.

Meanwhile, the present invention may further include a controller 200 for efficiently controlling the above-described test apparatus for a ballast water treatment apparatus.

FIG. 6 is a schematic block diagram of a test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 6, a test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention is roughly divided into tank portions 1 to 6, piping portions 10 to 160, and marine water treatment devices 1000 and 2000 And may further include a control unit 200.

As described above, the tank portion includes the first tank portion 1, the second tank portion 2, the third tank portion 3, the third 'tank portion 3', the fourth tank portion 4, A fourth tank portion 4 ', a fifth tank portion 5, and a sixth tank portion 6, respectively. Further, the above-mentioned tank part can be divided into a mixing tank part and a treatment tank part depending on its function.

Specifically, the mixing tank portion includes a first tank 1 for containing initial marine water, a second tank 2 for culturing the microorganisms, and an additive material containing starch, silica, silica or glucose And a sixth tank (6) for receiving the first tank (6). This mixed tank portion is provided to satisfy the condition of marine water for testing of the marine water treatment apparatus as described above.

The treatment tank unit includes a third tank 3 or a third tank 3 'for receiving the marine water treated by the first marine water treatment apparatus, and a fourth tank 3' for receiving marine water flowing out from the mixing tank unit. A fifth tank 5 for receiving the marine water flowing out from the tank 4 or the fourth tank 4 'and the third tank 3 or the fourth tank 4 to precipitate microorganisms or dirt . Such a treatment tank portion is provided for grasping the state of the marine water after the testing of the marine water treatment apparatus as described above.

The piping portion can be divided into a first mixed wiring portion, a second mixed wiring portion, and a processing wiring portion according to functions.

Specifically, the first mixed wiring portion includes a first pipe portion 10 communicating with the first tank to supply the marine water, and a second pipe portion 10 branched from the first pipe portion 10, A third piping section 30 for introducing marine water flowing out of the first tank 1 into the first marine water treatment apparatus 1000, A fourth piping section 40 for introducing the marine water mixed with microorganisms flowing out from the tank 2 into the third piping section 30 and a fourth piping section 40 branched from the second piping section 20, 6) for supplying the marine water to the third piping unit 30, a second piping unit 20 'for supplying the marine water to the third piping unit 30, 100).

The second mixed wicking section includes an eleventh piping section 110 communicating with the first tank 1 to supply fresh water and a second mixed piping section 110 branched from the eleventh piping section 110 to supply fresh water to the second tank 2 A thirteenth piping section 130 branched from the eleventh piping section 110 to supply fresh water to the third tank 3 and a third piping section 130 branched from the eleventh piping section 110, A fourth pipeline 140 branched from the fourth pipeline 110 to supply fresh water to the fourth tank 4 and a second pipeline 140 branched from the eleventh pipeline 110 to supply fresh water to the sixth tank 6, Unit 160 may be included.

The first mixed wiring portion and the second mixed wiring portion adjust the pump, the valve or the flow meter provided in each piping portion so as to mix the fluids received in the above-mentioned mixed tank portion appropriately according to predetermined conditions, , Fresh water, microorganisms and pollution conditions.

The treatment and wiring section includes a fifth pipe section 50 for introducing the marine water flowing out from the first marine water treatment apparatus 1000 into the third tank 3 and a fifth pipe section 50 branched from the third pipe section 30, A sixth piping section 60 through which the marine water flowing out from the first tank 1 and the second tank 2 flows into the fourth tank 4 and a sixth piping section 60 through which the marine water flowing out from the third tank 3 flows, An eighth piping section 80 for introducing the marine water flowing out of the fourth tank 4 into the seventh piping section 70, And a ninth piping portion branched from the seventh piping portion 70 for introducing marine water flowing out of the third tank 3 or marine water flowing out of the fourth tank 4 into the fifth tank 5, (90).

The controller 200 according to an embodiment of the present invention can efficiently control the mixing tank portion, the processing tank portion, the first mixed wiring portion, the second mixed wiring portion, or the processing wiring portion.

For example, the controller 200 may control the culture environment of the microorganisms accommodated in the second tank. That is, the control unit 200 controls the temperature of the microorganism to be cultured by controlling the temperature regulator (not shown), the pressure regulator (not shown), or the air piping unit 150 provided in the second tank 2, Can be controlled.

In order to satisfy the test condition, the controller 200 controls the valves or the pumps of the first mixed-wiring portion and the second mixed-wiring portion to control the salt condition of the predetermined marine water, You can also adjust the conditions.

In addition, the control unit 200 may control the treatment tank unit or the treatment wire unit to discharge the marine water contained in each tank of the treatment tank unit after a predetermined time. That is, the third tank 3 or the third tank 3 'in which the marine water treated in the marine water treatment apparatus is accommodated and the fourth tank 4 or the fourth tank 4' 4 ') for about 5 days, and then control the respective treatment wirings to discharge the marine water. At this time, if the neutralized treatment of the treated marine water is insufficient, the marine water treatment apparatuses 1000 and 2000 control the direct piping sections 1d, 1d, 2d, 2'd, The water can be reflowed. If the marine water treatment apparatuses 1000 and 2000 are set to treat the marine water more than once, the control unit 200 can redirect the marine water to the marine water treatment apparatuses 1000 and 2000 a predetermined number of times . In addition, the neutralization apparatus 77 provided in the seventh piping unit 70 can be controlled to neutralize the treated marine water.

In short, the control unit 200 of the present invention can accurately test the performance of the marine water treatment apparatus by controlling the tank unit and the wiring unit to control the test condition.

The control unit 200 controls the test apparatus for a ballast water treatment apparatus according to an embodiment of the present invention.

7 is a flowchart schematically showing a control method of a test apparatus for a ballast water treatment apparatus.

Referring to FIG. 7, the user can set conditions to be tested through the control unit 200 once. To this end, the control unit 200 may first control the marine water component adjustment condition (s100). That is, it is possible to control the component condition of the marine water to be tested by controlling the above-mentioned mixed tank portion, the first mixed wiring portion, and the second mixed wiring portion.

Thereafter, the control unit 200 can check whether the components of the mixed ocean water satisfy predetermined test conditions (s200). Specifically, such inspection can be manually or automatically inspected through the first sampler 35 described above.

Thereafter, the control unit 200 can flow the mixed marine water to the marine water treatment apparatuses 1000 and 2000 to process the marine water and perform sampling (S300). That is, this step is a process of sending mixed marine water or treated marine water to the above-mentioned third tank 3, third tank 3 ', fourth tank 4, and fourth tank 4' Sampling with the second sample sampling unit 55, the second sample sampling unit 55 ', the third sample sampling unit 65 and the third sampling sampling unit 65' .

Thereafter, the marine water contained in the third tank 3, the third tank 3 ', the fourth tank 4 and the fourth tank 4' is stored for a predetermined period of time (S400). As described above, the ocean water can be preserved for about 5 days, and the preservation period can be varied depending on the setting conditions.

Thereafter, when the condition of the marine water treatment is satisfied after the storage period (s500), the marine water is discharged through the ocean water neutralization treatment (s600) or the marine water treatment process (s700). Specifically, if the marine water treatment conditions are not satisfied, the marine water is re-transmitted to the marine water treatment apparatuses 1000 and 2000 through the direct piping sections 1d, 1'd, 2d and 2'd. Here, the treatment condition of the marine water can be determined as to whether it satisfies the components of the initial marine water (microbial flow rate, pollution degree). In addition, the marine water to be discharged for a predetermined period may be purified and discharged to the fifth tank 5.

Thereafter, the marine water is discharged (s700). The test apparatus according to an embodiment of the present invention can perform the test of the marine water treatment apparatus in an environmentally friendly manner by discharging the condition of the marine water to which the discharged marine water is initially introduced or the cleaner marine water.

As described above, the present invention can accurately mix test marine water suitable for each country. In addition, since two or more marine water treatment devices are not directly tested on the vessel, there is an advantage that a marine water treatment device mounted on a ship can be tested more accurately, quickly, and environmentally.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. Range and its equivalent range.

1: first tank 2: second tank
3: Third tank 3 ': Third tank
4: fourth tank 4 ': fourth tank
5: fifth tank 6: sixth tank
10: first piping section 20: second piping section
30: Third piping section 30 ': Third piping section
40: fourth piping section 50: fifth piping section
50 ': Fifth piping part 60: Sixth piping part
60 ': sixth pipe portion 70: seventh pipe portion
70 ': seventh pipe portion 80: eighth pipe portion
80 ': eighth pipe portion 90: ninth pipe portion
100: 10th piping section 110: 11th piping section
120: twelfth piping part 130: thirteenth piping part
140: the fourteenth piping part 150: the fifteenth piping part
160: sixteenth piping section 170: seventeenth piping section
200: control unit 1000: first marine water treatment device
2000: Second Marine Water Treatment System

Claims (10)

A mixing tank portion including a first tank for containing initial marine water, a second tank for culturing the microorganism, and a sixth tank for containing an additive including starch, silica, silica or glycose, ;
A first marine water treatment device for treating the microorganisms present in the marine water flowing out from the mixing tank;
A third tank for receiving the marine water treated by the first marine water treatment apparatus, a fourth tank for receiving marine water flowing out from the mixing tank, and a third tank for receiving marine water flowing out from the third tank or the fourth tank. And a fifth tank for containing microorganisms or dirt;
A second piping section branched from the first piping section to supply marine water to the second tank, and a second piping section connected to the first tank to supply marine water to the first tank, A fourth piping section for introducing the marine water mixed with the microorganisms flowing out of the second tank into the third piping section; A second piping portion branched from the sixth tank for supplying the marine water to the sixth tank and a tenth pipe portion for introducing the marine water mixed with the additives of the sixth tank into the third piping portion, part;
A twelfth piping section branched from the eleventh piping section to supply fresh water to the second tank, and a twelfth piping section branched from the eleventh piping section to supply fresh water to the first tank, A tenth pipe portion branched from the eleventh pipe portion to supply fresh water to the fourth tank and a second pipe portion branched from the eleventh pipe portion to be desalinated in the sixth tank, A second mixed wiring part including a sixteenth piping part for supplying the first mixed wiring part;
A fifth piping section for introducing the marine water flowing out from the first marine water treatment apparatus into the third tank, and a fifth piping section branched from the third piping section to discharge marine water flowing out from the first tank and the second tank, A seventh pipe portion for discharging the marine water flowing out from the third tank to the outside; and a sixth pipe portion for introducing marine water flowing out from the fourth tank into the seventh pipe portion And a ninth piping portion branched from the seventh piping portion to introduce marine water flowing out of the third tank or marine water flowing out of the fourth tank into the fifth tank, part; And
And a control section for controlling the mixing tank section, the treatment tank section, the first mixed-wiring section, the second mixed-wiring section, or the processing wiring section.
The method according to claim 1,
Wherein the control unit controls the culture environment of the microorganisms accommodated in the second tank.
The method according to claim 1,
Wherein each of the piping portions includes:
A pipe for guiding the flow of the fluid;
A pump provided in the pipe to flow the fluid; And
And a valve provided in the pipe to adjust a flow rate of the fluid.
The method of claim 3,
Wherein the controller controls a valve or a pump of each of the first mixed-wiring portion and the second mixed-wiring portion to control a salt condition, a microbial inclusion amount, or a marine water pollution condition of the predetermined marine water.
The method of claim 3,
Wherein the control unit controls the treatment tank unit or the treatment wiring unit to discharge the marine water contained in each tank of the treatment tank unit after a predetermined time.
An adjustment step of adjusting the composition of the ocean water;
A treatment step of treating the marine water for which the component is adjusted with a marine water treatment apparatus;
A preserving step of conserving the treated marine water; And
And a discharging step of discharging the preserved marine water.
The method according to claim 6,
Wherein,
A method for controlling a test apparatus for a ballast water treatment apparatus which mixes and adjusts an initial ocean water, a microorganism, or an additive including starch, silica sand, silica or glycose.
The method according to claim 6,
In the discharging step,
And a re-treatment step of re-introducing the marine water to the marine water treatment apparatus when the treated marine water does not satisfy predetermined marine water quality.
The method according to claim 6,
Wherein the discharging step further comprises a neutralizing step of neutralizing the treated marine water.
The method according to claim 6,
Wherein the discharging step further comprises a sedimentation step of precipitating contaminants introduced into the treated marine water.

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