KR100967348B1 - Apparatus for incubating matter eluted from sediment - Google Patents

Abstract

The present invention relates to an apparatus for culturing materials eluted from sediments, wherein the seawater maintained in a state similar to the state at the time of collection is introduced into the culture vessel at a constant rate through a first interlocking pump, and the introduced seawater is filled with the culture vessel. When filled, the seawater filled in the culture vessel is discharged at the same rate as the inflow rate, while the seawater in the culture vessel is circulated through the second interlocking pump to culture the material eluted from the deposits in the culture vessel into the seawater. Provided is a culturing device of material eluted from the sediment that can be made under conditions that are kept close to and can improve the accuracy of subsequent analysis.

Seawater, Sediment, Elution, Organics, Culture, Peristaltic Pump

Description

Cultivation apparatus of material eluted from the sediment {APPARATUS FOR INCUBATING MATTER ELUTED FROM SEDIMENT}

The present invention relates to a device for culturing material eluted from sediment, and more specifically, a sample for analysis of the marine environment through investigation of the behavior and distribution of marine pollutants through analysis of material eluted from seabed sediment into seawater. A device for culturing material eluted from said deposits used as a.

In general, in the marine environment, the particulate organic material in the water layer is sedimented and deposited in the lower layer to form a sedimentary layer. Especially in coastal areas where human activity is active, or in areas with severe appeal and eutrophication, a large amount of nutrients and organic matter in the water layer causes large amounts of particles to settle. The deposited organic matter is decomposed and inorganicized and converted into biologically active substances such as nutrients such as dissolved inorganic nitrogen, phosphorus, and heavy metals, and are present in the sediment at a high concentration. Some of these deposited materials can be re-eluted into the water column depending on the environment of the lower layer. The concentration of the eluted material in the shallow waters or lakes has a great effect on the water quality change.

Since the above-mentioned substances are mainly eluted from the seabed sediments of the ocean and included in the seawater, the sediment and seawater in the field sea area are collected and collected in the seawater for the analysis at the laboratory, not the site, and then transferred to the laboratory. A simple method of placing the target sediment in a water tank, filling the sea water thereon to create a closed environment, and then collecting a predetermined amount of the sea water over time to analyze the material eluted from the sediment. However, the above-mentioned conventional method has a large difference from the condition condition of the on-site ocean, that is, in the case of the on-site ocean, a condition in which dissolved oxygen amount or water temperature is kept constant by the flow or circulation of seawater, In this case, there is a problem in that the accuracy of the analysis is lowered because the seawater is not circulated at all.

The present invention has been made to overcome the drawbacks of the prior art as described above, the technical problem is to provide a culture apparatus for culturing the material eluted from the sediment into the seawater under conditions close to the state of the field ocean. .

In order to achieve the above technical problem, an apparatus for culturing material eluted from a sediment according to the present invention includes: a seawater storage tank for storing filtered seawater; A culture vessel in which the sediment collected from the seabed is collected and the seawater supplied from the seawater storage tank is filled into the upper portion of the sediment, and the upper end of the culture vessel is sealed with a cover provided with two pairs of inflow and outflow ports. An incubator configured; Is connected to the seawater storage tank and the pair of inflow port and the outflow port of the pair of inlet and outlet ports through the tube to introduce the seawater stored in the seawater storage tank into the culture vessel at a constant rate, A first interlocking pump which discharges seawater filled in the culture vessel at the same rate as the inflow rate when seawater is filled in the culture vessel; Analytical seawater storage container for storing the seawater flowing out of the culture vessel through the first interlocking pump; And a second interlocking pump connected to another pair of inflow and outflow ports of the two pairs of inflow and outflow ports through a tube to circulate the seawater in the culture vessel.

The cover may further be provided with a dissolved oxygen detection sensor for detecting the dissolved oxygen amount of seawater in the culture vessel.

An oxygen supply tank for supplying oxygen to the seawater stored in the seawater storage tank may be further provided.

The incubator and the analytical seawater storage container may be composed of a plurality of the same number each.

A reference seawater storage container may be further provided, and the first interlocking pump may be provided in the seawater storage tank to use the seawater stored in the seawater storage tank as a reference seawater for comparison with the seawater stored in the analytical seawater storage container. The stored seawater is supplied to the reference seawater storage container.

Circulation of seawater through the second interlocking pump is performed after the culture vessel is filled with seawater.

A constant temperature water bath containing the culture vessel may be further provided.

According to the culturing apparatus of the material eluted from the sediment according to the present invention having the configuration as described above, the seawater that is maintained close to the state at the time of collection is introduced into the culture vessel at a constant rate through the first interlocking pump, When the seawater is filled with the culture vessel, the seawater filled in the culture vessel is discharged at the same rate as the inflow rate, and the seawater in the culture vessel is circulated through the second interlocking pump to elute into the seawater from the deposits in the culture vessel. There is an advantage that the cultivation of the material to be carried out under conditions that are close to the state of the field ocean, and, as a result, there is an advantage that can improve the accuracy of the subsequent analysis.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the culture apparatus of the material eluted from the sediment according to the present invention. 1 is a schematic configuration diagram of an apparatus for culturing material eluted from a sediment according to the present invention.

As shown in FIG. 1, the apparatus 100 for culturing material eluted from the sediment according to the present invention basically includes a seawater storage tank 110, an incubator 130, a first interlocking pump 160, and a second interlocking pump. 170, an analysis seawater storage container 180 is configured.

The seawater storage tank 110 is for storing the seawater filtered and taken from the sea, the water temperature and salinity of the seawater at the time of harvesting is recorded.

On the other hand, oxygen is supplied to the seawater stored in the seawater storage tank 110 to maintain the dissolved oxygen contained in the seawater stored in the seawater storage tank 110 and the dissolved oxygen amount contained in the seawater of the on-site ocean. An oxygen supply tank 120 may be further provided.

The incubator 130 is a culture vessel 132 is filled with sediment collected by the scuba diver in the seabed of the field ocean and the seawater supplied from the seawater storage tank 110, and the top of the culture vessel 132 to seal It consists of a cover 134. The cover 134 is provided with two pairs of inlet ports 136a and 138a and outlet ports 136b and 138b for connection with the first and second interlocking pumps 160 and 170 which will be described later. In addition, the cover 134 may be further provided with a dissolved oxygen detection sensor 140 for detecting the dissolved oxygen amount of the seawater filled in the culture vessel (132).

Meanwhile, a constant temperature water tank 150 in which the culture vessel 132 is contained may be further provided so that the water temperature of the culture water in the culture vessel 132 is constantly maintained at the temperature of the sea water at the time of collection.

The first interlocking pump 160 has two pairs of inlet ports 136a and 138a and outlet ports 136b and 138b provided in the seawater storage tank 110 and the cover 134 of the incubator 130 through a tube. Is connected to any one of the inlet port (136a) and the outlet port (136b) of the seawater stored in the seawater storage tank 110 to the culture vessel 132 at a constant rate, the introduced seawater is cultured When filled in the container 132 serves to discharge the seawater filled in the culture vessel 132 at the same speed as the flow rate. The first interlocking pump 160 and the second interlocking pump 170 to be described later may be applied by adopting various types of well-known peristaltic pumps (Peristaltic Pump) as necessary, and the technology for each type of peristaltic pumps. Since the contents are already known, detailed descriptions of the first and second interlocking pumps 160 and 170 will be omitted.

The rate of inflow and outflow of seawater into the culture vessel 132 through the first interlocking pump 160 should be kept constant, and the control of the speed is particularly important. That is, when the inflow and outflow rates of seawater are too slow, the amount of material eluted and accumulated from the sediment in the culture vessel 132 may be significantly higher than that of the field ocean, and the meaning of analysis may be faded. Conversely, if the rate of inflow and outflow of seawater is too fast, the material eluted from the sediment is swept away even before it is observed, which is significantly less than in the case of on-site oceans, which can also fade the meaning of the analysis.

Therefore, the inflow and outflow rates of the seawater into the culture vessel 132 through the first interlocking pump 160 are preferably controlled within a range in which a statistically significant concentration difference is maintained between the inflowing seawater and the outflowing seawater. Such a range is such that the state of the seawater in the culture vessel 132 is in a normal state, that is, a range in which the flux of dissolved oxygen present in the seawater in the culture vessel 132 is stabilized over time. It is preferable to be controlled inward, and the above-described dissolved oxygen detection sensor 140 is provided in the cover 134 of the incubator 130 to detect the dissolved oxygen amount for determining whether such a steady state is formed. .

On the other hand, the culture apparatus 100 of the material eluted from the sediment according to the present invention is a second interlocking pump 170 as a means for maintaining the state of the seawater in the culture vessel 132 approximate to the state of the field ocean It is characterized by including.

The second interlocking pump 170 has a pair of inlet ports (two pairs of inlet ports 136a and 138a and outlet ports 136b and 138b) provided in the cover 134 of the incubator 130 through a tube. It is connected to the 138a) and the outlet port 138b to circulate the seawater in the culture vessel 132 so that the state of the seawater in the culture vessel 132 is maintained close to the state of the field ocean. At this time, the circulation of seawater through the second interlocking pump 170 is preferably made after the culture vessel 132 is filled with seawater.

On the other hand, the seawater flowing out of the culture vessel 132 through the first interlocking pump 160 is stored in the analysis seawater storage container 180, the seawater stored in the analysis seawater storage container 180 from the sediment Eluted material is included. The material may include inorganic nutrients such as ammonia ions, nitrate ions, nitrite ions and phosphate ions, various organic materials including trace metal ions and dissolved organic hydrocarbon groups. Therefore, by analyzing the seawater containing the eluted material through a separate analysis device, it is possible to perform an analysis of the marine environment through the understanding of the marine process required, the behavior and distribution survey of marine pollutants.

At this time, the seawater stored in the seawater storage tank 110 can be used as a reference seawater to be compared, and the seawater storage container as a means for using seawater stored in the seawater storage tank 110 as a reference seawater more simply. 190 may be further provided. The reference seawater storage container 190 is compared with the seawater stored in the analysis seawater storage container 180 by receiving and storing the seawater stored in the seawater storage tank 110 through the first interlocking pump 160. As a reference seawater for the seawater storage tank 110 to be able to use more easily stored seawater.

In the culture apparatus 100 of the material eluted from the sediment according to the present invention described above with reference to Figure 1 illustrates that the incubator 130 is configured as one, but is not necessarily limited to this, a plurality of the incubator 130 It can also be configured as.

Known peristaltic pumps (Peristaltic Pump) there are a variety of types that can be provided with a plurality of channels to flow the liquid into and out of a plurality of different vessels. Therefore, although not shown in the drawings, the first interlocking pump 160 and the second interlocking pump 170 are adopted as interlocking pumps having a plurality of channels, so that the first interlocking pump does not need to be additionally configured. By integrating the incubator 130 consisting of a plurality of the above-mentioned to the peristaltic pump 160 and the second interlocking pump 170, the culture of the eluted material using the same sediment and seawater at the same time to improve the accuracy of the analysis It is possible to improve the efficiency of the culture apparatus by allowing it to be carried out several times, or to simultaneously perform the respective cultures for the eluate using different sediments and seawater.

In this case, when the plurality of the incubator 130 is configured, the analysis seawater storage container 180 is also provided with the same number as the incubator 130 is composed of a plurality, each through the first peristaltic pump 160 It stores the seawater flowing out of the culture vessel 132 of the incubator 130.

As described above, in the detailed description of the present invention, a preferred embodiment of the present invention has been described, but those skilled in the art to which the present invention pertains various modifications can be made without departing from the scope of the present invention. Of course. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by the equivalents of the claims.

1 is a schematic configuration diagram of an apparatus for culturing material eluted from a sediment according to the present invention.

** Description of the symbols for the main parts of the drawings **

110: seawater storage tank 120: oxygen supply tank

130: incubator 132: culture vessel

134: cover 136a, 138a: inlet port

136b, 138b: outflow port 140: dissolved oxygen detection sensor

150: constant temperature water tank 160: first interlocking pump

170: second interlocking pump 180: seawater storage container for analysis

190: reference seawater storage container

Claims (7)

Seawater storage tank for storing the filtered seawater; A culture vessel containing sediment collected from the seabed and filled with the seawater supplied from the seawater storage tank to the upper portion of the sediment, and the upper end of the culture vessel is sealed, and the cover is provided with two pairs of inlet and outlet ports. Incubator; Is connected to the seawater storage tank and the pair of inflow port and the outflow port of the pair of inlet and outlet ports through the tube to introduce the seawater stored in the seawater storage tank into the culture vessel at a constant rate, A first interlocking pump which discharges seawater filled in the culture vessel at the same rate as the inflow rate when seawater is filled in the culture vessel; Analytical seawater storage container for storing the seawater flowing out of the culture vessel through the first interlocking pump; And a second interlocking pump connected to another pair of inflow and outflow ports of the two pairs of inflow and outflow ports through a tube to circulate seawater in the culture vessel. The method of claim 1, The cover further comprises a dissolved oxygen detection sensor for detecting the dissolved oxygen of the seawater in the culture vessel culture apparatus of the material eluted from the deposit. The method of claim 1, And an oxygen supply tank for supplying oxygen to the sea water stored in the seawater storage tank. 4. The method according to any one of claims 1 to 3, The incubator and the analytical seawater storage container is a device for culturing material eluted from the sediment, characterized in that composed of a plurality of the same number each. The method of claim 4, wherein Standard seawater storage container is further provided, The first interlocking pump supplies the seawater stored in the seawater storage tank to the reference seawater storage container to use the seawater stored in the seawater storage tank as a reference seawater for comparison with seawater stored in the seawater storage container for analysis. An apparatus for culturing substances eluted from sediments. The method of claim 4, wherein The circulation of seawater through the second interlocking pump is a culture apparatus of the material eluted from the sediment, characterized in that the culture vessel is filled after the seawater is filled. The method of claim 4, wherein Cultivation apparatus of the material eluted from the sediment, characterized in that further comprising a constant temperature water bath containing the culture vessel.

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