JP3018726B2 - Acid rain automatic measuring device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic acid rain measuring apparatus having a washing mechanism for performing continuous automatic measurement in a field and eliminating carry-over in each continuous analysis. Yes, in detail, the ion main component of rainwater using ion chromatography technique,
The present invention relates to an automatic acid rain measuring apparatus having a washing mechanism for performing continuous automatic measurement in a field and eliminating carry-over in each continuous analysis.

[0002]

2. Description of the Related Art In recent years, global pollution has become a major social problem, such as global warming, frequent occurrence of acid rain, and contamination by various chemical substances. Under such circumstances, obtaining accurate information on the state of chemical components of rainwater is an important issue for understanding environmental changes and countermeasures.

Conventionally, in this type of technology, when it rains, a rain sensor senses the rain at that time, opens a funnel cover, and samples the water with a falling rainfall meter every predetermined amount of rain through a water sampling funnel. The pH, temperature, and conductivity of the sampled rain are measured. Thereafter, the ion concentration in the rainwater is analyzed in the rainwater analyzer through the sampling cup by using the ion chromatography technique.
When the rain stops, the funnel cover closes and all lines from the water sampling funnel to the sampling cup are washed with pure water.

[0004]

In such a conventional technique, pure water used for cleaning is discharged as a drain, but pure water remaining in a line from a sampling funnel to a sampling cup is removed. Alternatively, there is a problem in that the washing water attached to the funnel cover that overflows when the rain starts next falls is mixed with the rainwater of the initial rainfall, and the analysis result is lower than the ion concentration of the actual rainwater.

FIG. 3 is a diagram for explaining the problems of the prior art, and shows experimental values showing the effect on the ion concentration of the cleaning solution.
That is, it is a result of performing analysis by pouring simulated rainwater from a sampling funnel after washing the rain sampling portion.

According to this, it can be seen that the first and second analyzes show low ion concentrations despite the simulated rainwater of a certain concentration being poured. This is particularly problematic because the initial rainfall has a high acidity and the analysis of the high rainfall of the initial rainfall is very important.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems. It is an object of the present invention to use a cleaning liquid to which specific ions not contained in rainwater are added. The present invention is to provide an acid rain automatic measurement device capable of performing highly accurate analysis by examining the influence on each analysis.

[0008]

In order to achieve the above object, the present invention provides a rain sensor (1) for sensing rainfall, and a funnel cover (2) that opens and closes based on a signal from the rain sensor. The sampling funnel (3) for guiding the rain collected by opening the funnel cover to the tipping mass rain gauge (4), and the pH, temperature, and conductivity of the rain sampled for each given amount of rain by the tipping mass rain gauge. Means for measuring (5 to 7), sampling cup (9 to 10) for sampling rain after measurement by the means, and analyzing rainwater sent from the sampling cup for ion concentration in rainwater by ion chromatography. A cleaning liquid tank 11 for storing a cleaning liquid to which specific ions not contained in the rainwater are added, and a cleaning liquid injection port 12 for injecting the cleaning liquid sent from the cleaning liquid tank. The washing liquid carry-over of the time rainwater measurement after washing is intended to acid rain automatic measuring device for correcting the ion concentration analysis result of rainwater examined simultaneously by ion chromatography method and the ion concentration in the rain.

[0009]

According to the present invention, an automatic measuring apparatus for acid rain having a washing mechanism for eliminating a carry-over in a continuous analysis by performing continuous automatic measurement in a field, is provided with rainwater as a washing liquid used at that time. Add specific ions not included in. Then, a washing solution containing specific ions not contained in the rainwater is supplied to the rain collection section, and the carry-over of the washing solution is checked simultaneously with the ion concentration of the rainwater using the ion chromatography method, and the ion chromatography method is used. Correction of ion concentration analysis result of rainwater. According to this, it is possible to realize an acid rain automatic measurement device that enables more accurate analysis.

[0010]

Embodiments will be described with reference to the drawings.
In the following drawings, parts that are the same as in FIG. 3 are given the same reference numerals, and descriptions thereof are omitted.

FIG. 1 is a diagram showing a specific embodiment of the present invention. FIG. 2 is a diagram provided for explanation of the present invention.

In FIG. 1, reference numeral 1 denotes a rain sensor for detecting a rainfall situation, 2 denotes a funnel cover which is opened and closed by a funnel drive motor M, 3 denotes a water sampling funnel, 4 denotes an inverted mass rain gauge, and 5 denotes pH. 6 is a thermometer, 7 is a conductivity meter.

8a to 8g are solenoid valves, 9 is a first sampling cup (individually 9a to 9c), 10 is a second sampling cup.
This is a sampling cup.

Reference numeral 11 denotes a cleaning liquid tank for storing a cleaning liquid to which specific ions not contained in rainwater are added, and reference numeral 12 denotes a cleaning liquid injection port for injecting the cleaning liquid sent from the cleaning liquid tank 11 using the pump P. Reference numeral 13 denotes a drain port, and reference numeral 14 denotes a discharge port for transmitting the analyzed rainwater to a rainwater analysis unit (not shown) for analyzing the ion concentration in the rainwater using the ion chromatography technique.

The operation in such a configuration is as follows.

(A) When it rains, the rain sensor 1 detects the rain at that time, and the funnel cover drive motor M is used to open the funnel cover 2 to collect rain.

(B) The collected rain is sampled by the falling mass rain gauge 4 every 0.5 mm of rain through the water sampling funnel 3.

(C) The pH, temperature, and conductivity of the sampled rain are measured by a pH meter 5, a thermometer 6, and a conductivity meter 7, respectively.

(D) After this measurement, the solenoid valve 8b is operated (the controller for operating each mechanism including this solenoid valve is omitted in the drawing). 9a to 9c are sequentially stored.

(E) Here, assuming that the cleaning with the cleaning liquid has been performed prior to the measurement, the first rainwater stored in the first sampling cups 9a to 9c flows from the water sampling funnel 3 to the first sampling cup. The ions in the rainwater are diluted due to the cleaning liquid remaining on the line up to or the cleaning liquid attached to the funnel cover 2 that overflows when rain starts to fall.

(F) Rain water stored in the first sampling cups 9a to 9c in this manner is supplied to the electromagnetic valves 8d respectively.
By (8e, 8f), each cup is stored in the second sampling cup 10 and then sent to the rainwater analyzer (not shown) by opening the solenoid valve 8g.

(G) In the rainwater analyzing section, the ion concentration of rainwater and the concentration of ions added to the washing liquid are analyzed simultaneously with the concentration of ions in the sent water using the ion chromatography technique. Is corrected.

(H) When the rain stops, the rain sensor 1
And the funnel cover drive motor M is operated to close the funnel cover 2.

(R) After the funnel cover 2 is closed, the cleaning liquid sent from the cleaning liquid tank 11 is injected from the cleaning liquid injection port 12 using the pump P.

(V) All the lines from the water sampling funnel 3 to the second sampling cup 10 are washed with this washing liquid.

(G) The cleaning liquid after cleaning is discharged from the drain port 13.

(E) If there is rain again, the above measurement and analysis operations are repeated.

Here, a description will be given of a cleaning liquid having a difference from the prior art.

For example, if a LiBr solution is used as a cleaning solution,
Since neither Li ^- ions nor Br ^- ions are contained in the rainwater, the ion-chromatographic technique is used to determine the concentration of the ion species components in the rainwater and simultaneously measure the Br ^- ion concentration in the rainwater sent to the rainwater analyzer. The inspection can be performed to correct the ion concentration analysis result of the rainwater.

The correction formula for each ion concentration of rain water can be expressed by _{D '= {D Br / (} D Br -D Br')} D ... (1). However, D 'ion concentration after correction, Br of D _Br is in the cleaning liquid ^- ion concentration, D _Br' is Br ^- ion concentration analysis result of, D is respectively show the results of an analysis of rain water in the ion concentration.

FIG. 2 shows the results of the experiment for correcting the carry-over of the cleaning liquid. FIG. 2 shows the result of analysis by pouring the simulated rainwater after washing from the sampling funnel 3. As is apparent from this, it is possible to correct the first and second Br ^- ion concentration analysis results using the equation (1) and obtain a result closer to the third value.

It should be noted that the present invention is not limited to those described above, and the cleaning solution may be further selected by selecting various solutions containing ions not contained in rainwater and having known concentrations in addition to the LiBr solution. Enables highly accurate analysis.

[0033]

According to the present invention, as described above, by adding specific ions not contained in rainwater as a cleaning liquid, carry-over of the cleaning liquid is checked, and the ion concentration analysis result of rainwater using an ion chromatography technique is examined. Since the correction is possible, there is an effect that a more accurate analysis can be performed.

[Brief description of the drawings]

FIG. 1 is a diagram showing a specific embodiment of the present invention.

FIG. 2 is a diagram provided for explanation of the present invention.

FIG. 3 is a diagram for explaining a problem of the conventional technique.

[Explanation of symbols]

 Reference Signs List 1 rain sensor 2 funnel cover 3 water sampling funnel 4 tipping mass rain gauge 11 cleaning liquid tank 12 cleaning liquid injection port

Continuation of the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) G01N 33/18 G01N 1/00 G01N 30/02 G01N 35/00

Claims (1)

(57) [Claims] 1. A rain sensor (1) for sensing rainfall, a funnel cover (2) that opens and closes based on a signal from the rain sensor, and a fall mass rain gauge that opens the funnel cover and collects rain. A sampling funnel (3) leading to 4), means (5 to 7) for measuring pH, temperature, and conductivity of rain sampled for each given amount of rainfall by the falling mass rain gauge, and after measuring by the means. A sampling cup (9 to 10) for sampling rain, a rainwater analyzing unit for analyzing ion concentration in rainwater by ion chromatography with respect to rainwater sent from the sampling cup, and a cleaning liquid to which specific ions not contained in rainwater are added. A cleaning liquid tank 11 for storing the cleaning liquid, and a cleaning liquid injection port 12 for injecting the cleaning liquid sent from the cleaning liquid tank. An acid rain automatic measurement device that checks the ion concentration of rainwater by examining the ion concentration of water simultaneously with the ion chromatography technique.