KR101410253B1 - Apparatus for measuring partial pressure of carbon dioxide within seawater in the water tank - Google Patents

Abstract

The apparatus for measuring partial pressure of carbon dioxide in seawater is provided with a water tank providing a space for storing seawater inhabited by micro-marine organisms; A cover which is disposed inside the water tub and in which a portion opened in a tubular shape with an opened lower surface is immersed in the seawater; A plurality of discs stacked on the inside of the cover and partially immersed in the seawater; A motor coupled to the water tub and including a rotating shaft passing through the disks to rotate the disks; A circulation pipe communicating with both ends of the cover disposed above the seawater to circulate air passing through the disks; And a meter communicating with the circulation pipe to measure the partial pressure of carbon dioxide in the seawater.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for measuring partial pressure of carbon dioxide in a seawater,

The present invention relates to an apparatus for measuring the partial pressure of carbon dioxide in seawater. Particularly, the present invention relates to an apparatus for measuring the partial pressure of carbon dioxide in seawater capable of continuously measuring the partial pressure of carbon dioxide in seawater in a water tank without the death of micro-marine organisms cultured in a water tank.

In general, it is widely used as an indicator of the degree of acidity of seawater in order to study the effect of carbon dioxide partial pressure in aquaculture tank on marine habitat environment.

Generally, in order to measure partial pressure of carbon dioxide in a water tank in which micro-marine organisms are inhabited, a part of seawater in a tank is continuously sampled and sampled seawater is injected into a closed measuring chamber through a high pressure pump to remove carbon dioxide The equilibrium is detected and the carbon dioxide partial pressure in the seawater is measured.

However, when sampling a part of seawater in the tank and injecting high pressure into the measurement chamber through a high-pressure pump to measure the partial pressure of carbon dioxide in the seawater, micro-marine organisms in the tank are sprayed at high pressure inside the measurement chamber together with seawater, And there is a great problem in observing and culturing marine life.

The present invention provides an apparatus for measuring the partial pressure of carbon dioxide in sea water in a water tank in which micro-marine life is inhabited, and a device for measuring the partial pressure of carbon dioxide in sea water that prevents micro-marine life from being killed during the measurement of partial pressure of carbon dioxide .

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

In one embodiment, the apparatus for measuring partial pressure of carbon dioxide in seawater includes a water tank for providing a space for storing seawater inhabited by micro-organisms; A cover which is disposed inside the water tub and in which a portion opened in a tubular shape with a bottom opened is locked with the seawater; A plurality of discs stacked on the inside of the cover and partially immersed in the seawater; A motor coupled to the water tub and including a rotating shaft passing through the disks to rotate the disks; A circulation pipe communicating with both ends of the cover disposed on the upper portion of the seawater to circulate air passing through the disks; And a meter communicating with the circulation pipe to measure the partial pressure of carbon dioxide in the seawater.

The apparatus for measuring the partial pressure of carbon dioxide in seawater further includes a cover rotation preventing member for connecting the cover and the water tub to prevent the cover from rotating due to rotation of the rotation shaft.

The disk having the stacked layer layers of the apparatus for measuring the partial pressure of carbon dioxide in seawater is formed with a through hole, and the through holes of each disk are arranged so as not to face each other.

At least two through holes are formed in each disk of the apparatus for measuring the partial pressure of carbon dioxide in seawater with respect to the center of the disk, and the through holes formed in each disk are arranged perpendicular to each other.

In the apparatus for measuring the partial pressure of carbon dioxide in seawater, one side of the circulation pipe communicates with one end of the cover, and the other side opposite to the one side of the circulation pipe communicates with the other side opposite to the one side of the cover.

The disk of the apparatus for measuring partial pressure of carbon dioxide in seawater is formed in a disk shape, and the top plate of the cover includes a curved plate formed with a curvature equal to the curvature of the disk.

The measuring device of the carbon dioxide partial pressure measuring device of seawater includes a pump for circulating the air inside the cover and a measuring unit for measuring the partial pressure of carbon dioxide.

The apparatus for measuring partial pressure of carbon dioxide in seawater further includes a cooling unit disposed in a part of the circulation pipe to cool the circulation pipe to remove moisture inside the circulation pipe.

The carbon dioxide partial pressure measuring device of the seawater further includes a level control valve for connecting the inside and outside of the cover to adjust the level of the seawater inside the cover.

The apparatus for measuring the partial pressure of carbon dioxide in seawater further includes an air supply unit disposed inside the water tank to provide air to the seawater, wherein the air supply unit and the cover are staggered in a pipe shape.

According to the apparatus for measuring the partial pressure of carbon dioxide in seawater according to the present invention, in order to measure the partial pressure of carbon dioxide in the seawater, a part of the disk is immersed in seawater in a closed cover and the air is circulated in the cover while rotating the disk, It is possible to continuously measure the partial pressure of carbon dioxide while preventing the death of micro-marine organisms in seawater.

1 is a perspective view of an apparatus for measuring partial pressure of carbon dioxide in seawater according to an embodiment of the present invention.
2 is a cross-sectional view of Fig.
3 is a perspective view showing the cover of Fig.
4 is a perspective view showing the disks of FIG. 2;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. The definitions of these terms should be interpreted based on the contents of the present specification and meanings and concepts in accordance with the technical idea of the present invention.

1 is a perspective view of an apparatus for measuring partial pressure of carbon dioxide in seawater according to an embodiment of the present invention. 2 is a cross-sectional view of Fig. 3 is a perspective view showing the cover of Fig. 4 is a perspective view showing the disks of FIG. 2;

1 to 4, an apparatus 800 for measuring partial pressure of carbon dioxide in seawater includes a water tank 100, a cover 200, a disk 300, a motor 400, a circulation pipe 500, and a meter 600 2).

The water tank 100 provides space for receiving freshwater or seawater inhabited by micro-marine life, organisms, microorganisms, aquatic organisms, and the like.

The water tank 100 includes a water tank body 110 and a water tank cover 120. The water tank body 110 of the water tank 100 is provided with air providing air into the water tank 100 Unit 130 is connected. The air providing unit 130 has a pipe shape and the air providing unit 130 is disposed to be opposite to the cover 200 so that air bubbles are not introduced into the cover 200 to be described later.

Referring to FIGS. 2 and 3, the cover 200 is disposed inside the water tub 100. The cover 200 is formed, for example, in a cylindrical shape with its bottom opened.

In one embodiment of the present invention, the cover 200 is formed in a semi-cylindrical shape with an opening at the bottom. The cover 200 can be manufactured using, for example, a transparent synthetic resin.

The end of the cover 200 is disposed at a position lower than the surface of the water and the end of the cover 200 is disposed at a position lower than the water surface, so that a closed space is formed inside the cover 200.

Referring to FIGS. 2 and 4, the disc 300 has a circular plate shape, and the discs 300 are arranged in such a manner that a plurality of the discs 300 are stacked in parallel with each other. The discs 300 in which a plurality of sheets are stacked are arranged at a predetermined distance from each other.

Some of the discs 300 are disposed at a lower position than the surface of the water, thereby causing a part of the disc 300 to be contained in seawater.

In an embodiment of the present invention, the disc 300 may be manufactured using a transparent synthetic resin.

In the center of the disc 300, a shaft hole 310 through which a rotating shaft to be described later passes is formed. The curvature of the disc 300 is formed to be substantially equal to the curvature of the cover 200. Since the disk 300 rotates with respect to the fixed cover 200, the outer circumferential surface of the disk 300 is disposed adjacent to the inner surface of the cover 200 so that the inner surface and the water film of the disk 200 are formed.

At least one, preferably at least two, through-holes 320 are formed in a plurality of stacked discs 300, and the through-holes 320 formed in a pair of adjacent discs 300 do not face each other .

For example, in the disk 300 shown in FIG. 4, the through holes 320 are disposed on both sides of the shaft hole 310 with respect to the shaft hole 310, and the through holes 320 of the adjacent disks 300, Are arranged to be shifted with an interval of 90 DEG mutually.

The reason why the through holes 320 are arranged so as to be shifted from each other in the disk 300 having a plurality of sheets stacked thereon is that the path of the air circulated through the circulation pipe to be described later in the cover 200 is made longer and the measurement accuracy of the partial pressure of carbon dioxide .

Although it is shown and described in the embodiment of the present invention that two through holes 320 are formed in the disk 300 and the respective through holes 320 are arranged so as not to face each other in the disk 300, A plurality of through holes 320 having a small size may be regularly or irregularly formed on the substrate 300.

A narrow gap is formed between the outer circumferential surface of the disc 300 and the inner circumferential surface of the cover 200 and a water film is formed by the surface tension of the seawater in the gap, Air is passed through the through holes 320 of the discs 300.

The motor 400 is coupled to the outside of the water tub 110 of the water tub 100. The motor 400 includes a rotary shaft 410 for rotating the disk 300. The rotary shaft 410 is connected to the water tub body 110 110, and the rotation axis 410 is formed perpendicular to each of the discs 300.

The rotating shaft 410 of the motor 400 extends into the water tank body 110 and passes through one side of the cover 200 and sequentially passes through the shaft holes 310 of the disks 300, And is rotatably coupled to the other side opposite to the one side.

In one embodiment of the present invention, one side of the cover 200 through which the rotating shaft 410 passes and the other side of the cover 200 are sealed so that air leakage does not occur, respectively.

As the discs 300 are coupled to the rotating shaft 410 of the motor 400, the rotating shaft 410 and the disc 300 are rotated inside the cover 200 by the operation of the motor 400. As the discs 300 are rotated in the cover 200, the surface of the disc 300 is filled with seawater. In the process of rotating the disc 300 with the seawater, the carbon dioxide in the seawater is sealed It comes out as a space.

In an embodiment of the present invention, the motor 400 may further include a speed reducer (not shown) for adjusting the number of revolutions of the disc 300.

The circulation pipe 500 is connected to one side of the cover 200 and the other side opposite to the side of the cover 200. The circulation pipe 500 may include a flexible hose.

Air in the cover 200 can be circulated continuously while passing through the through holes 320 of the disk 300 by using the circulation pipe 500.

The meter 600 communicates with a portion of the circulation line 500 and the meter 600 includes a pump 610 and a measurement unit 620.

The pump 610 serves to circulate the air in the cover 200 and the pump 610 is connected to a part of the circulation pipe 500.

The measurement unit 620 measures the partial pressure of carbon dioxide in the seawater contained in the water tank 100 indirectly by measuring the partial pressure of carbon dioxide in the air in the cover 200 circulated by the pump 610.

A cooler 630 may be installed in the circulation pipe 500. The cooler 630 may be used to remove moisture when a large amount of moisture is generated in the cover 200. The cooler 630 may be a Peltier Modules or the like, or coolers with cooling cycles.

The cooler 630 cools a part of the circulation pipe 500 to indirectly remove the moisture contained in the air circulated inside the circulation pipe 500.

The cover 200 is provided at a lower portion of the water tank body 110 to receive air from the air supply unit 130 that supplies air into the water tank 100, The water level control valve 210 or the long and thin pipe may be connected to adjust the water level inside the cover 200. [

Since the cover 200 can be rotated together with the disc 300 when the disc 300 is rotated by the rotation of the rotating shaft 410 in the cover 200, Member 150 may be provided.

The cover rotation preventing member 150 interconnects the cover 200 and the water tub 100 to prevent the cover 200 from rotating in accordance with the rotation of the rotation shaft 410. The cover rotation preventing member 150 covers the cover 200 200 and the water tub 100. The ends of the fixing rods 152 are engaged with fastening screws that prevent the fixing rods 152 from escaping.

As described above in detail, in order to measure the partial pressure of carbon dioxide in the seawater, a part of the disk is immersed in seawater and the air is circulated in the cover while rotating the disk, thereby continuously measuring the partial pressure of carbon dioxide in the seawater, Thereby preventing the micro-marine organisms from falling dead.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

800 ... CO2 partial pressure measuring device 100 ... water tank
200 ... cover 300 ... disk
400 ... motor 500 ... circulation piping
600 ... Meter

Claims (12)

A water tank providing a space for accommodating seawater inhabited by micro-marine organisms;
A cover which is disposed inside the water tub and in which a portion opened in a tubular shape with an opened lower surface is immersed in the seawater;
A plurality of discs stacked on the inside of the cover and partially immersed in the seawater;
A motor coupled to the water tub and including a rotating shaft passing through the disks to rotate the disks;
A circulation pipe communicating with both ends of the cover disposed on the upper portion of the seawater to circulate air passing through the disks; And
And a measuring unit communicating with the circulation pipe to measure the partial pressure of carbon dioxide in the seawater.
The method according to claim 1,
Further comprising a cover rotation preventing member for connecting the cover and the water tub to prevent the cover from rotating due to rotation of the rotation shaft.
The method according to claim 1,
Wherein the disk having the layered layers is provided with a through hole, and the through holes of each disk are arranged so as not to face each other.
The method of claim 3,
Wherein at least two through-holes are formed in each of the discs with respect to a center of the disc, and the through-holes formed in the discs are arranged vertically to each other.
The method according to claim 1,
And a plurality of through holes are formed in the disk in which the layered layers are stacked.
The method according to claim 1,
Wherein the one side of the circulation pipe communicates with one end of the cover and the other side opposite to the one side of the circulation pipe communicates with the other side opposite to the one side end of the cover.
The method according to claim 1,
Wherein the disk is formed in a disk shape and the upper plate of the cover includes a curved plate having a curvature equal to a curvature of the disk.
The method according to claim 1,
Wherein the measuring instrument includes a pump for circulating the air inside the cover and a measuring unit for measuring a partial pressure of carbon dioxide.
The method according to claim 1,
Further comprising a cooling unit disposed in a part of the circulation pipe to cool the circulation pipe to remove moisture inside the circulation pipe.
The method according to claim 1,
And a water level control valve for connecting the inside and outside of the cover to adjust the water level of the seawater inside the cover.
The method according to claim 1,
Further comprising a long pipe connecting the inside and the outside of the cover to adjust the water level of the seawater inside the cover.
The method according to claim 1,
And an air supply unit disposed inside the water tank for supplying air to the seawater,
Wherein the air providing unit is arranged in the shape of a pipe in such a manner that the air providing unit and the cover are staggered from each other.

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