KR19980048906A - Automatic Flow Injection Alkali Concentration Measurement Using Ion Selective Electrode - Google Patents

Abstract

The present invention relates to a flow-injection alkali concentration automatic measuring method using an ion-selective electrode for automatically measuring the concentration of the alkaline solution in the alkali degreasing process.

In the flow injection type alkali concentration automatic measuring method using the ion selective electrode according to the present invention, a predetermined ratio of the alkaline solution 8 and the buffer 7 are ionized on the flow injection concentration measuring system 21 using the ion selective electrode 1, respectively. Continuous degreasing process by supplying to the selective electrode 1 and the reference electrode 2 and measuring the concentration of sodium ions irrespective of the presence of other ionic additives by using the response potential difference between the ion selective electrode 1 and the reference electrode. It is possible to quickly and accurately measure the alkali concentration of.

Description

Automatic Flow Injection Alkali Concentration Measurement Using Ion Selective Electrode

The present invention relates to a method for automatically measuring the concentration of the alkaline solution in the alkali degreasing process, in particular in a flow injection concentration measurement system using ion-selective electrode to supply a predetermined proportion of alkaline solution and buffer to the ion-selective electrode, the reference electrode In addition, the present invention relates to a flow-injection alkali concentration measurement method using an ion-selective electrode that allows the automatic concentration measurement of alkali concentrations in a continuous degreasing step by measuring only the concentration of sodium ions using the potential difference between the two electrodes.

In general, various kinds of contaminants such as rolling oil, grease, iron, etc. are attached to the surface of cold rolled steel sheet, and by removing them, it ensures cleanliness of the steel sheet for continuous surface treatment to prevent poor adhesion and various surface defects of plating and painting. In order to do this, a continuous degreasing treatment is performed. Recently, the automatic concentration management system is essential to automate the process automation and degreasing uniformity to improve the performance and workability.

Conventional alkali concentration measurement is mainly measured using a neutralization technique, but this is a problem that takes a long time and heavy workload for the analysis solution collection and alkali concentration analysis. Recently, the solution is automatically collected and the concentration analysis is carried out using an on-line automatic titration system, but it is not suitable for the automatic control of the alkali concentration in the degreasing process because the analysis takes about 10 minutes or more.

On the other hand, the ion-selective electrode (Ion-Selective Electrode) reacts only with the ionic material of the specific component present in the solution, and is mainly used for component analysis of the specific element present in the trace. However, when the concentration of the characteristic component is increased, the response potential of the ion-selective electrode gradually saturates and may not function. For example, the response potential of the sodium ion-selective electrode is 1% in the degreasing solution. Since it is already saturated at more than%, concentration measurement is impossible at 1-10%, which is the main concentration control range of degreasing process.

Korean Patent Application No. 95-66262 filed by the applicant of the present invention in order to improve the problems of the existing schemes are shown in FIGS. 1 to 5, which will be described with reference to the accompanying drawings, FIG. Alkaline concentration automatic measurement and control method using the same flow-injection concentration measurement system is to install a reference electrode and an ion-selective electrode, to install a flow cell on the ion-selective electrode, and to control the buffer solution pump and alkaline solution metering pump A first step of continuously supplying a buffer solution and a predetermined amount of alkaline solution to the sample inlet, a second step of measuring a potential generated at the ion-selective electrode according to the continuous supply of alkaline solution in the first step, and A third step of calculating concentration calibration and temperature correction according to a built-in program using the potential measured in the second step; and The fourth step is to continuously measure and control the alkali concentration in the degreasing process by using the concentration calibration and temperature correction obtained in the third step.

However, such a conventional method has solved the above problems to some extent, but the following two problems remain. First, there is a problem of response potential or unstable and severe noise. Second, when solution contamination and sludge increase due to reuse of degreasing solution or infiltration of foreign substances, contamination of electrode also increases and response potential changes and reproducibility decreases.

The present invention has been made for the above problem.

Accordingly, an object of the present invention is to provide a method of supplying an alkaline solution and a buffer having a specific composition at a constant rate using a flow injection concentration measurement system using an ion selective electrode, and a method of installing a filter in an alkaline solution supply line. By eliminating the lack of stability and reproducibility, by measuring only the concentration of sodium ions, to provide a method for automatically measuring the alkali concentration of the degreasing process using an ion-selective electrode to quickly and accurately measure the alkali concentration of the continuous degreasing process.

The present invention is a technical means for achieving the above object, the present invention is a degreasing using a flow injection type concentration measurement system including a temperature sensor, SSR board, digital output board, system controller, A / D converter, signal conditioner In the automatic alkali concentration measurement method, a host electrode and an ion selective electrode are provided, and each flow cell is installed so that the lower ends of the reference electrode and the ion selective electrode can be connected to each other by a solution, and a buffer solution pump By controlling the alkaline solution pump, a certain amount of buffer solution from the buffer solution tank is supplied to the flow cell of the reference electrode according to a predetermined supply method, and a predetermined amount of alkaline solution from the alkaline solution tank is passed through the filter, followed by ion selectivity. A first step of supplying the electrode to the flow cell according to a predetermined supply method; A second step of measuring a difference between two potentials generated between the ion selective electrode and the reference electrode according to the continuous supply of the alkaline solution and the buffer solution in the first step; A third step of obtaining a concentration calibration and a temperature compensation amount according to a built-in program using the potential difference measured in the second step; And a fourth step of automatically measuring the alkali concentration of the degreasing process according to a predetermined measurement method using the concentration calibration and the temperature compensation obtained in the third step.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the flow injection type alkali concentration automatic measuring method using an ion selective electrode according to the present invention.

In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

The present invention is an improvement on the Korean Patent Application No. 95-66262 filed by the applicant of the present invention, and the main difference between the present invention and the Korean Patent Application No. 95-66262 which is the present invention is that of the alkaline solution and the buffer of the first step. In the supply method and the measurement method, the remaining third to fourth steps can be said to be relatively the same.

6 is a block diagram of a flow injection concentration measurement system using an ion-selective electrode according to the present invention, Figure 7 is a graph comparing the stability of the response potential using the present invention and the conventional method, Figure 8 is a concentration according to the present invention A periodic response graph of each sodium hydroxide concentration using the measurement system.

6, 7 and 8, the concentration analysis system 21 according to the present invention is provided with an ion selective electrode 1 and a reference electrode 2, the ion selective electrode 1 and the reference electrode ( 2) Each of the flow cells 3a and 3b are installed to be connected to each other by a solution at the lower end, and the buffer solution metering pump 9 and the alkaline solution metering pump 10 are controlled to provide a buffer with a constant flow rate. While supplying the flow cell 3b of (2) according to a predetermined supply method (continuously, periodically or as required), the alkaline solution 8 having a constant flow rate is passed through the filter 22, and then the ion selective electrode ( The difference in potential generated between the ion selective electrode 1 and the reference electrode 2 to be supplied to the flow cell 3a continuously, periodically, or as necessary, is detected as a response signal.

In order to detect the response signal according to the potential difference, the supply ratio of the alkaline solution and the buffer solution 7 to the ion-selective electrode 1 can be in the range of 0: 100 to 100: 0, but the alkali solution to be controlled Since there is a slight difference depending on the concentration and the capacity of the ion sensor, it is desirable to select a suitable cost in a large range where the response signal to the alkali concentration is stable and a potential difference is possible.

When the supply ratio of the alkaline solution 8 is 0% compared to the buffer solution 7, it is mainly when the concentration measurement is to be performed periodically or as needed, and the electrode in the state where the alkaline solution metering pump 10 is stopped This is the case where a certain amount of the buffer solution 7 is passed through the buffer solution pump 9 so as not to dry the surface.

In addition, even when the supply ratio of the alkaline solution (8) is 100% compared to the buffer (7) is mainly when the concentration measurement is to be carried out periodically or as necessary, the buffer solution to reduce the consumption of the buffer solution and waste water In order to prevent the electrode surface from drying in the state where the metering pump 9 is stopped, the alkali solution 8 is passed through a predetermined amount of alkali solution 8 and then returned to the alkaline solution tank 12 for reuse.

However, in the case of measuring the concentration, when the supply ratio of the alkaline solution 8 is less than 0.0001% compared to the buffer 7, the problem of the response potential difference with respect to the alkali concentration difference decreases and the consumption of the buffer 7 On the other hand, at 95% or more, the response signal is saturated or unstable, so that the flow injection concentration analysis method has little effect. Therefore, the feed ratio of the alkaline solution (8) is 0.0001-95 compared with the buffer (7). % Range is preferred.

In addition, the components of the buffer 7 may be water alone, but after obtaining a more stable response signal, Tris- having an amino-hydroxymethyl group, an amino-hydroxyethyl group, etc. Tris-buffers or other commercially available buffers can be dissolved in one or two or more types of water.

When the concentration of the buffers constituting the buffer (7) is less than 0.001wt%, the effect of the buffer (7) has little effect on the stability of the signal, whereas at more than 10wt%, the stability of the solution due to the excessive presence of poorly soluble additives Since the lowering, the buffer concentration of the buffer (7) is preferably limited to 0.001-10wt%.

EXAMPLE

In the present invention, in order to increase the stability and reproducibility of the ion sensor response potential to the alkali solution concentration change, a flow injection concentration measuring system 21 as shown in FIG. The degreasing solution used was 6% sodium hydroxide solution containing about 1 g / L of sludge due to contamination during the degreasing operation, and the buffer solution (7) contained tris and a filler containing 0.1 wt% of aminohydroxymethyl group as a component. The solution contained was used.

First, in order to observe the stability of the response potential with respect to the alkali solution of a certain concentration, the sodium hydroxide solution (6%, 20 ℃) to the ion selective electrode (1) and the reference electrode (2) of the above-described concentration measuring system 21, respectively ) And the buffer solution 7 at a feed ratio of 50:50 and passed through the sensor for 30 minutes. Meanwhile, as a comparative example, as in Korean Patent Application No. 95-66262, a conventional method of continuously supplying a buffer solution and an alkaline solution of the same flow rate to the sample inlet as in the embodiment of the present invention was used.

7 is a result of observing the stability of the response potential with respect to the Example and Comparative Example, the Example can be seen that the response potential of the ion-selective electrode is very stable with a certain concentration of sodium hydroxide solution than the Comparative Example.

In addition, in addition to the method of continuously measuring the concentration of the solution, the flow injection concentration measuring method of the present invention can be measured periodically or as needed. In this embodiment, the alkaline solution 8 supplied to the ion selective electrode 1 is supplied. The response potential of the ion sensor to the change of the alkaline solution concentration was periodically observed while maintaining the ratio at 0.0005% compared to the buffer 7 supplied to the reference electrode 2.

As a result of the above embodiment, as in the continuous measurement method, it can be seen that as the alkaline solution concentration increases, the response potential of the ion sensor increases step by step, with the peak value of the response potential for each alkali concentration. The third step of determining the concentration calibration and temperature correction amount and the fourth step of measuring the concentration of the alkaline solution using the same periodically or as needed can automatically measure the concentration of the alkaline solution.

On the other hand, as shown in Figure 8 the flow injection concentration measuring system of the present invention is excellent in the reproducibility of the periodic measurement results for the alkaline concentration of the same concentration shows a high reliability of the concentration measurement system.

1 is a block diagram of a flow injection concentration measurement system using a conventional ion selective electrode,

2 is a dynamic response graph of each sodium hydroxide concentration using a conventional concentration measurement system,

3 is a calibration graph of the response potential to the conventional sodium hydroxide concentration change,

Figure 4 is a calibration graph of the response potential to the conventional alkaline solution temperature change,

5 is a flowchart for automating a conventional alkali degreasing process,

6 is a block diagram of a flow injection concentration measurement system using an ion selective electrode according to the present invention,

7 is a graph comparing the stability of the response potential using the present invention and the conventional method,

8 is a periodic response graph of each sodium hydroxide concentration using the concentration measuring system according to the present invention.

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

1: Ion-selective electrode

2: Reference electrode

3: Flow cell 3a: Flow cell for ion selective electrode

3b: Flow cell for conventional electrode 4: Temperature sensor

5: Solution outlet 6: Sample inlet

7: Buffer supply line 8: Alkaline solution supply line

9: Buffer metering pump 10: Alkaline solution metering pump

11: buffer solution bank 12: alkaline solution tank

13: Alkaline solution supply line 14: Water supply line

15: solution outlet 16: SSR board

17: Digital output board 18: System controller

19: A / D converter 20: Signal conditioner

21: Flow injection concentration measuring system 22: Filter

No content

As described above, in the present invention, the alkaline solution (8) and the buffer (7) having a predetermined ratio on the flow injection concentration measuring system (21) using the ion selective electrode (1), respectively, the ion selective electrode (1) and the reference electrode ( 2) By using only the response potential difference between the ion selective electrode 1 and the reference electrode, the alkali concentration in the continuous degreasing process can be measured quickly and accurately by measuring only the concentration of sodium ions regardless of the presence of other ionic additives. There are unique effects that can be measured.

The above description is only one embodiment of the present invention, and the present invention can be variously modified and modified within the scope of the configuration. In addition, one of ordinary skill in the art will readily recognize that the flow injection type alkali concentration automatic measuring method using the ion selective electrode is not limited to the above-described embodiment.

Claims (2)

Complex using flow injection concentration measurement system including temperature sensor 4, SSR board 16, digital output board 17, system controller 18, A / D converter 19, signal conditioner 20 In the alkali concentration automatic measurement and control method of the process, An ion selective electrode 1 and a reference electrode 2 are provided, and respective flow cells 3a and 3b are provided so that the lower ends of the ion selective electrode 1 and the reference electrode 2 can be connected to each other by a solution. The buffer solution metering pump 9 and the alkaline solution metering pump 10 are controlled to supply a predetermined amount of buffer to the procell 3b of the reference electrode 2 according to a predetermined supply method, and to supply a predetermined amount of alkaline solution. A first step of passing the filter 8 through the filter 22 and then supplying it to the flow cell 3a of the ion selective electrode 1 according to a predetermined supply method. A second step of measuring a difference between two potentials generated between the ion selective electrode 1 and the reference electrode 2 according to the continuous supply of the alkaline solution and the buffer solution in the first step; A third step of obtaining a concentration calibration and a temperature compensation amount according to a built-in program using the potential difference measured in the second step; A fourth step of automatically measuring the alkali concentration of the jar process according to a predetermined measurement method by using the concentration calibration and the temperature correction obtained in the third step; Alkaline concentration automatic measurement method of degreasing process using ion selective electrode, characterized in that consisting of 2. The supply ratio of the alkaline solution (8) supplied to the ion selective electrode (1) is in the range of 0.0001-95% compared to the buffer (7) supplied to the reference electrode (2). Automatic Measurement of Alkali Concentration in Degreasing Process Using Ion Selective Electrode