KR101108561B1 - PH measuring device using absorbance method and pH measuring method using the same - Google Patents

Abstract

The present invention relates to a pH measuring device using the absorbance method and pH measurement method using the same that can measure the pH of the sample with excellent sensitivity, and can be useful for real-time water quality inspection in sewage treatment facilities, water treatment facilities. To this end, the sample is accommodated in the inner space, the measuring cell 100 made of a light transmissive material; A sample inlet pipe 200 having a first opening / closing valve 210 and connected to one side of the measuring cell 100; A sample discharge pipe 300 having a second opening / closing valve 310 and connected to the other side of the measurement cell 100; Coloring reagent supplying means 400 for introducing a coloring reagent into the measuring cell 100; A light source 500 for irradiating predetermined light to the measuring cell 100; Absorption line detection means 600 for receiving the transmitted light passing through the measurement cell 100 and detecting the absorption line having a specific wavelength; And a data processor 700 for calculating the pH of the sample by comparing the detected wavelength data of the absorbed light with the wavelength data of the absorbed light according to the prepared pH. do.

Hydrogen ion concentration, pH, water quality test, absorbance method, sample, measuring cell, color reagent, absorbance, spectrum

Description

Apparatus for measuring pH by using absorptiometric analysis and measuring method using the same}

The present invention relates to a pH measuring apparatus and a measuring method, and more particularly, it is possible to measure the pH of a sample with excellent sensitivity, and an absorbance method that can be usefully used for real-time water quality inspection in sewage treatment facilities and water treatment facilities. It relates to a pH measuring device using and a pH measuring method using the same.

Generally, hydrogen ion concentration (hereinafter referred to as pH), dissolved oxygen (DO), conductivity (EC), and total organic carbon (TOC) are measured to determine the degree of contamination of water. Among them, pH is an item for determining whether the water is acidic or alkaline, and a pH standard for determining whether it can be used as drinking water is approximately pH 6-8.

A pH measuring device commonly used in the prior art is a pH meter (pH meter). The pH meter measures the pH using a potential difference between the measuring electrode covered with a thin glass film and the comparative electrode. Such a pH meter has a relatively good measurement sensitivity, and has a merit of being compact and easy to use.

However, the conventional pH meter has a problem that a large error occurs when used in water treatment facilities, such as sewage treatment plants, water purification plants. That is, the sample to be measured contains a lot of sludge or oil, so that the hole through which the standard solution of the comparison electrode flows is blocked or the surface of the glass measuring electrode is easily covered with foreign matter or oil. As a result, the measurement sensitivity of the pH meter is lowered, so that an error in the measured value is likely to occur, and in some cases, the measurement itself is impossible.

In addition, the conventional pH meter is suitable in static situations, such as when measured in the laboratory, but there is a problem that a large error occurs when measuring the pH of the running water at the site, such as sewage treatment plants, water treatment facilities, etc. .

The present invention is intended to solve the above problems, an object of the present invention is to reduce the occurrence of errors in the measurement that can be generated from contamination by foreign matter or oil, etc., pH measurement that can prevent the measurement sensitivity from flowing water is reduced It is to provide a device and a pH measurement method using the same.

Still another object of the present invention is to provide a pH measuring apparatus capable of performing real-time water quality monitoring in a site such as a sewage treatment facility and a water treatment facility, and a pH measuring method using the same.

An object of the present invention as described above is a sample (S) is accommodated in the inner space, the measuring cell 100 made of a light transmissive material; A sample inlet pipe 200 having a first opening / closing valve 210 and connected to one side of the measuring cell 100; A sample discharge pipe 300 having a second opening / closing valve 310 and connected to the other side of the measurement cell 100; Coloring reagent supplying means 400 for introducing a coloring reagent into the measuring cell 100; A light source 500 for irradiating predetermined light to the measuring cell 100; Absorption line detection means 600 for receiving the transmitted light passing through the measurement cell 100 and detecting the absorption line having a specific wavelength; And a data processor 700 for calculating the pH of the sample S by comparing the detected wavelength data of the absorbed light with the wavelength data of the absorbed light in accordance with the prepared pH. Can be achieved by.

The present invention may further include a display 800 for displaying the pH of the sample S calculated by the data processor 700. In addition, the sample inlet tube 200 may be further provided with a sample sampling means 900 for continuously supplying the sampled sample to the sample inlet tube 200. In this case, a control unit (not shown) for controlling the first opening / closing valve 210, the second opening / closing valve 310, the light source 500, and the sample sampling means 900 may be further provided.

And, the color reagent supply means 400 is connected to the color reagent inlet pipe 410 and the color reagent inlet pipe 410 connected to the upper side of the measuring cell 100, the reservoir 420 containing the color reagents; It consists of a pump 430 for transferring the color reagent contained in the reservoir 420 to the measuring cell 100. In this case, a control unit for controlling the first open / close valve 210, the second open / close valve 310, the light source 500, and the pump 430 may be further provided.

The light source 500 irradiates white light to the measurement cell 100, and the measurement cell 100 is preferably made of a material that selectively transmits visible light.

The light absorbing line detecting means 600 includes a spectroscopic section for spectrosing transmitted light to obtain an absorbing spectrum, and a detecting section for detecting wavelength data of the light absorbing line from the absorbing spectrum.

On the other hand, the object of the present invention as described above, the first step (S100) of filling the sample (S) in the measuring cell 100; A second step (S200) in which the coloring reagent supplying means 400 inputs the coloring reagent into the measurement cell 100; A third step (S300) of the light source 500 shining white light into the measurement cell 100; A fourth step (S400) in which the absorbing ray detecting means 600 receives the transmitted light passing through the measuring cell 100 to detect the absorbing ray having a specific wavelength; And a fifth step (S500) of calculating the pH of the sample (S500) by comparing the wavelength data of the detected light absorber with the wavelength data of the absorber according to the pH prepared in advance. It can also be achieved by a pH measurement method using an absorbance method.

In addition, it is preferable to further include a step (S600) of displaying the pH of the sample (S) calculated after the fifth step (S500).

And, the first step (S100) is the step of introducing the sample (S) into the measuring cell 100 by opening the first on-off valve 210 in a state in which the second on-off valve 310 is closed, and the measuring cell ( When the sample S is filled in 100, the first opening / closing valve 210 is closed.

And, the second step (S200) is preferably added such that the coloring reagent to achieve a concentration of 1mol with the sample (S).

In addition, the fourth step (S400) is preferably composed of the step of spectroscopy the transmitted light to obtain an absorption spectrum, and the step of detecting the wavelength data of the absorption line in the absorption spectrum.

As described above, since the pH measuring apparatus and the pH measuring method using the same according to the present invention measure the pH of the sample using the absorbance method, the existing pH meter is contaminated by foreign matter or oil, or measured in running water. In this case, it is possible to solve the problem that the measured pH value causes a large error. This can maintain the sensitivity in a variety of pH measurement environment has the advantage of extending the range of use of the pH measuring device.

In addition, the pH measuring device and the pH measuring method using the same according to the present invention has the advantage that can be utilized for real-time water quality monitoring is applied in the field, such as sewage treatment facilities, water treatment facilities.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be readily apparent to those skilled in the art that various other modifications and variations are possible without departing from the spirit and scope of the invention. Are all within the scope of the appended claims.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to components of each drawing, the same reference numerals are used for the same components as much as possible even though they are shown in different drawings.

[Using Absorption Spectrophotometry pH  Measuring device]

First, with reference to the accompanying drawings will be described a pH measuring device using the absorbance method according to an embodiment of the present invention.

1 is a schematic configuration diagram of a pH measuring apparatus using the absorbance method according to an embodiment of the present invention. PH measuring apparatus 10 of the present invention, as shown in Figure 1, the measurement cell 100, the sample inlet pipe 200, the sample discharge pipe 300, the color reagent supply means 400, the light source 500, absorbance The line detecting means 600, the data processing unit 700, the display unit 800, and the sample sampling means 900 are configured.

As shown in FIG. 1, the measuring cell 100 is provided with an internal space having a predetermined capacity and filled with a sample S to be measured. In this case, the measuring cell 100 may be cylindrical, or may be box-shaped. In addition, the measurement cell 100 may be made of a light transmissive material, such as glass or quartz, which may pass visible light, infrared light, ultraviolet light, or the like. In this case, according to the present embodiment, the measurement cell 100 uses a material such as quartz to selectively transmit visible light.

On the other hand, the measurement cell 100 is provided with a first through hole 110 for connecting the sample inlet pipe 200 on one side, the second through hole 120 for connecting the sample discharge pipe 300 to the other side It is provided. And, the upper side of the measurement cell 100 is provided with a third through hole 130 for connecting the color sample inlet pipe 420.

The sample inlet pipe 200 is provided with a first open / close valve 210 and is connected to the first through hole 110 of the measurement cell 100. The sample inlet pipe 200 is a passage through which the sample S to be measured is introduced into the measuring cell 100.

The sample discharge pipe 300 is provided with a second open / close valve 310 and is connected to the second through hole 120 of the measurement cell 100. The sample discharge pipe 300 is a passage for discharging the sample S of the measurement cell 100.

Meanwhile, the first open / close valve 210 and the second open / close valve 310 may be manually operated, and may be configured to be connected to a controller (not shown) to be described later to enable automatic operation.

The color reagent supplying means 400 serves to supply a predetermined amount of the color reagent to the measurement cell 100 filled with the sample. Color reagent supply means 400 is composed of a color reagent inlet pipe 410, the reservoir 420 and the pump 430. The color reagent inlet pipe 410 is connected to the third through hole 130 of the measurement cell 100. And, the storage container 420 is stored in the color reagent is connected to the end of the color reagent inlet pipe 410. In addition, the pump 430 transfers the color reagent contained in the reservoir 420 to the measurement cell 100.

On the other hand, the color development reagent used in the present invention is an indicator that changes color to a predetermined color according to the pH change of the sample (S), phenolphthalein, sulfonephthalein, benzoin, azo, triphenylmethane, nitro And the like can be used. According to this embodiment, it is preferable that the color development reagents vary the degree of color development within a range in which the pH standard (approximately pH 6 to 8) of drinking water can be measured. For example, bromothymol blue color reagent may be used.

The light source 500 is installed adjacent to the measurement cell 100 so as to emit a predetermined light to the measurement cell 100 filled with the sample (S). According to this embodiment, the light source 500 uses a 10W LED white light source.

The absorption line detection unit 600 serves to detect an absorption line of a specific wavelength with respect to the transmitted light passing through the measurement cell 100. That is, the absorption line detection means 600 uses the property that the color development degree of the coloring reagent is different according to the pH of the sample S, and the light of a specific wavelength band of transmitted light is absorbed according to the color development degree. Specifically, the absorption line detection unit 600 is composed of a spectroscope (not shown) and a detector (not shown).

A spectroscope (not shown) is provided adjacent to the measurement cell 100 to receive the transmitted light, and the absorption spectrum is obtained by spectroscopy the transmitted light received using a prism. At this time, since the measurement cell 100 passes only visible light, the transmitted light has a wavelength in the visible light region.

The detector (not shown) serves to detect wavelength data of the absorbing ray in the obtained absorption spectrum. The detection unit (not shown) uses a photomultiplier tube or the like, which is a known technique, and a detailed description thereof will be omitted.

The data processing unit 700 calculates the pH of the sample S by comparing the wavelength data of the absorbing light line connected to the light absorbing line detecting means 600 with the wavelength data of the light absorbing line according to the prepared pH.

The display unit 800 is connected to the data processor 700 and serves to display the pH of the calculated sample graphically or numerically.

On the other hand, pH measuring apparatus 10 using the absorbance method according to an embodiment of the present invention may be further provided with a sample sampling means (900). The sample sampling means 900 serves to sample by sampling a sample with a pump (not shown). That is, the pH measuring apparatus 10 of the present invention is installed in a water treatment facility, such as a sewage treatment facility and a water purification plant, so that the sample collected by the sample sampling means 900 can be continuously supplied to the sample inlet pipe 200. It is composed.

In addition, the pH measuring apparatus 10 according to an embodiment of the present invention is the first on-off valve 210, the second on-off valve 310, the pump 430, the sample sampling means 900 and the light source 500 Control unit (not shown) connected to the may be further provided. PH measuring apparatus 10 of the present invention further comprises a control unit (not shown) can be configured to automatically perform the process of filling the sample (S) in the measuring cell 100 and the pH measurement process using the absorbance method. have. This enables real-time pH measurement in sewage treatment facilities and water treatment facilities.

Specific operation of the pH measuring device 1 using the absorbance method according to an embodiment of the present invention having the above-described configuration will be described in the pH measuring method to be described later.

[Using Absorption Spectrophotometry pH  How to measure]

Hereinafter, a method for measuring pH using an absorbance method according to an embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a flowchart of a method for measuring pH using an absorbance method according to an embodiment of the present invention. PH measurement method of the present invention is subjected to the process from the first step (S100) to the sixth step (S600) as follows.

In the first step S100, the sample S is filled in the measuring cell 100 having a predetermined capacity. Specifically, when the first on-off valve 210 of the sample inlet pipe 200 is opened in the state in which the second on-off valve 310 of the sample discharge pipe 300 shown in FIG. 1 is closed, the measurement cell 100 The sample is filled in. When the sample is completely filled, the first opening / closing valve 310 of the sample inlet pipe 200 is closed. This process can be done by manual operation, it can be made by automatic control by a controller (not shown).

In the second step S200, a predetermined amount of the coloring reagent is added to the measurement cell 100. That is, the pump 430 of the color reagent supplying means 400 is operated, and the color reagent of the reservoir 420 flows into the measurement cell 100 through the color reagent inlet pipe 410. In this case, the coloring reagent is preferably added in an appropriate amount to achieve a concentration of 1 mol with the sample (S). On the other hand, the coloring reagent uses an indicator such as Bromothymol Blue (colored in blue). In addition to bromothymol blue, a color developing reagent having a characteristic of discoloring to a predetermined color according to a pH change of a sample may be used. On the other hand, the sample (S) to which the coloring reagent is added, the degree of color development is determined according to the pH value.

In the third step S300, the white light irradiated by the light source 500 passes through the measurement cell 100 filled with the sample. At this time, the transmitted light passing through the measurement cell 100 absorbs (absorbs) light of a specific wavelength band according to the color development degree of the sample (S). The transmitted light has a wavelength in the visible light region by the measuring cell 100 that passes only visible light.

The fourth step (S400) receives the transmitted light passing through the measuring cell 100 to detect the absorption line of a specific wavelength. In detail, the fourth step S400 includes spectroscopy of the transmitted light to obtain an absorption spectrum, and detection of wavelength data of the absorption line in the absorption spectrum.

Spectroscopy of the transmitted light to obtain an absorption spectrum using a prism, thereby obtaining an absorption spectrum in the visible region. In this case, the absorbance spectrum includes an absorbing line in which light of a specific wavelength band is absorbed. On the other hand, the step of detecting the wavelength data of the absorption line in the absorption spectrum is achieved by amplifying the absorption spectrum using a photomultiplier tube.

In the fifth step S500, the data processor 700 calculates the pH of the sample by comparing the detected wavelength data of the absorbed rays with the wavelength data of the absorbed rays according to the prepared pH.

At this time, when using the Bromothymol Blue color sample, the wavelength data of the absorbing rays according to the prepared pH is as follows.

Absorption wavelength of the absorption spectrum (nm) Hydrogen ion concentration (pH) 557nm pH 6.0 545nm pH 6.5 508 nm pH 7.0 488 nm pH 7.5 452nm pH 8.0

Therefore, when the detected light absorption wavelength is 557 nm, the pH of the sample S measured by comparing with the light absorption wavelength (557 nm) of the prepared absorption spectrum of Table 1 is computed as 6.0. Similarly, when the wavelength of the absorbed light detected is 452 nm, the pH of the measured sample S is calculated as 8.0.

In the sixth step S600, the calculated pH of the sample S is finally displayed graphically or numerically on the display unit 800.

1 is a schematic configuration diagram of a pH measuring device using the absorbance method according to an embodiment of the present invention.

Figure 2 is a flow chart of the pH measurement method using the absorbance method according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

S: Sample 10: pH measuring device

100: measuring cell

200: sample inlet pipe

210: first closing valve

300: sample discharge pipe

310: second opening and closing valve

400: coloring reagent supply means

410: color development reagent inlet pipe

420: storage bin

430: Pump

500: light source

600: absorbing ray detection means

700: data processing unit

800: display unit

Claims (14)

A measurement cell 100 accommodated in an internal space and made of a light-transmissive material; A sample inlet pipe 200 having a first opening / closing valve 210 and connected to one side of the measuring cell 100; A sample discharge pipe 300 having a second opening / closing valve 310 and connected to the other side of the measurement cell 100; A coloring reagent supplying means 400 for introducing a coloring reagent into the measurement cell 100; A light source 500 for irradiating predetermined light to the measurement cell 100; Absorption line detection means (600) for receiving the transmitted light passing through the measurement cell (100) to detect the absorption line of a specific wavelength; And A data processor 700 which calculates a pH of the sample S by comparing the detected wavelength data of the absorbed light with the wavelength data of the absorbed light according to a pH prepared in advance; A display unit 800 displaying the pH of the sample S calculated by the data processor 700; And The sample inlet tube 200 includes a sample sampling means 900 for continuously supplying the sampled sample to the sample inlet tube 200. The color reagent supplying means 400 is connected to the color reagent inlet pipe 410 connected to the upper side of the measurement cell 100, the reservoir 420 is connected to the end of the color reagent inlet pipe 410 containing the color reagent. And, it is composed of a pump 430 for transferring the coloring reagent contained in the reservoir 420 to the measuring cell 100, It includes a control unit for controlling the first on-off valve 210, the second on-off valve 310, the light source 500 and the sample sampling means 900 and the pump 430, The absorbing ray detecting means (600) comprises a spectroscopic unit for spectroscopy the transmitted light to obtain an absorbance spectrum, and a detector for detecting wavelength data of the absorbing line in the absorbing spectrum. delete delete delete delete delete The method of claim 1, The light source 500 is a pH measuring device using the absorbance method, characterized in that for irradiating the white light to the measuring cell (100). The method of claim 1, The measuring cell 100 is a pH measuring device using the absorbance method, characterized in that made of a material for selectively transmitting visible light. delete In the pH measurement method using a pH measuring device using the absorbance method of claim 1, A first step S100 of filling the sample S into the measuring cell 100; A second step (S200) of generating a coloring reagent supplying means (400) into the measuring cell (100); A third step (S300) of the light source 500 shining white light into the measurement cell 100; A fourth step (S400) of the absorbing ray detecting means (600) receiving the transmitted light passing through the measuring cell (100) to detect the absorbing ray having a specific wavelength; And And a fifth step (S500) of calculating the pH of the sample (S500) by the data processing unit 700 comparing the detected wavelength data of the absorbed light with the wavelength data of the absorbed light according to the prepared pH. PH measurement method using the absorbance method. The method of claim 10, After the fifth step (S500) pH measurement method using the absorbance method characterized in that it further comprises the step (S600) of displaying the calculated pH of the sample (S). The method of claim 10, The first step (S100) is the step of introducing the sample (S) into the measuring cell 100 by opening the first on-off valve 210 in a state in which the second on-off valve 310 is closed, When the sample (S) is filled in the measuring cell (100) pH measurement method using the absorbance method, characterized in that consisting of closing the first opening and closing valve (210). The method of claim 10, The second step (S200) is a pH measurement method using the absorbance method, characterized in that the coloring reagent is added to achieve a concentration of 1mol with the sample (S). The method of claim 10, The fourth step (S400) is a method for measuring pH using the absorbance method, characterized in that the spectroscopy of the transmitted light to obtain an absorption spectrum, and the step of detecting the wavelength data of the absorption line in the absorption spectrum.

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