JP2838728B2 - Method for removing corrosive gas in gas chromatography for inorganic gas analysis and column for removing corrosive gas - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method for removing corrosive gas and a column for removing corrosive gas in gas chromatography for inorganic gas analysis.

[Background of the Invention] Normally, inorganic gas (O ₂ , N ₂ , CO, CO ₂ ) is analyzed using molecular sieve 5A (O ₂ , N ₂ , CO) and silica gel (CO ₂ ).

However, when analyzing inorganic gas in chlorine gas, chlorine gas is a dangerous and unstable substance, so it is necessary to analyze a small amount of sample in a short time. Therefore, it has become possible to analyze inorganic gases simultaneously by modifying the gas chromatograph and using two detectors.

However, recently, gas chromatographs have a structure that cannot be remodeled. Therefore, if a gaschromium currently used breaks down, simultaneous analysis of inorganic gas becomes impossible. Therefore, by dividing the column into two parts after the inlet, arranging them in parallel, and bringing them together at the end of the column and leading them to the detector, it became possible to analyze inorganic gases simultaneously without modifying the gas chromatography. .

According to this method, the time required for analysis can be reduced by about 30% as compared with the former method, while keeping the lower detection limit. The following columns are known in addition to the above columns that can simultaneously analyze inorganic gas. That is, it has a double structure in which one column passes through another column.

The present invention provides a method for removing a corrosive gas and a corrosive gas in a gas chromatography for inorganic gas analysis, which can be applied to the dual structure column system, the parallel structure column, and the serial structure column. It is a column for removal.

According to the study of the present inventors, in any of these series-type, parallel-type and double-structure type, since the main component of the gas to be inspected is chlorine, detectors, packing columns and other devices are used. It has been found that corrosion and a decrease in sensitivity are problems that cannot be avoided.

[Object of the Invention] Accordingly, an object of the present invention is to provide a method for removing a corrosive gas and a column for removing a corrosive gas in a gas chromatography for inorganic gas analysis, which analyzes an inorganic gas in a test gas containing chlorine gas. To be.

[Constitution of the Invention] A method for removing a corrosive gas in a gas chromatography for inorganic gas analysis according to the present invention that achieves the above object,
In a gas chromatography for analyzing an inorganic gas such as O ₂ , N ₂ , CO ₂ or CO in a chlorine gas-containing test gas, the chlorine gas in the chlorine gas-containing test gas is removed using silver iodide. , O ₂ , N ₂ , CO ₂ or an inorganic gas to be analyzed such as CO ₂ or C is passed, but I ₂ is trapped and then passed through a packing column, or H 2 in a chlorine gas-containing test gas. in gas chromatography to analyze the _two as inorganic gases, chlorine gas of chlorine gas containing a test gas was removed using silver iodide, such as analyte inorganic gas H ₂ is passed but, I ₂ is the complement After capturing, it is passed through a packing column.

The corrosive gas removal column according to the present invention that achieves the above object is provided with O ₂ , N ₂ , CO ₂ or CO ₂ in a chlorine gas-containing test gas.
In a column for removing corrosive gas used in gas chromatography for analyzing an inorganic gas such as that described above, a gas inlet connected to an inlet of a chlorine gas-containing test gas and a gas inlet connected to a filler column are used. It has a connection portion with the gas outlet, and a silver iodide-filled portion is arranged on the gas inlet side, and an inorganic gas to be analyzed such as O ₂ , N ₂ , CO ₂ or CO on the gas outlet side. Although I ₂ is characterized by a filling portion disposed to capture, or corrosive used in gas chromatography to analyze inorganic gases such as H ₂ in chlorine gas-containing test gas In the gas removal column,
A gas inlet connected to an inlet of a chlorine gas-containing test gas and a gas outlet connected to a gas inlet of a packing column have a connection portion, and a silver iodide filling portion is provided on the gas inlet side. Is arranged, and the inorganic gas to be analyzed such as H ₂ is passed through the gas outlet side, but a filling portion for capturing I ₂ is arranged.

The most preferred embodiment of the present invention, in a column for removing corrosive gas, from the gas inlet to the gas outlet,
Quartz beads filling portion, silver iodide filling unit, I ₂ adsorbent filling unit, quartz beads filling section, a heat insulating unit, silver-filled portion is disposed,
Or, in the column for removing corrosive gas, from the gas inlet to the gas outlet, filled with quartz beads, filled with silver iodide,
A configuration characterized in that an activated alumina filling section and a quartz bead filling section are provided.

[Operation] The quartz beads used in the present invention are for reducing dead volume, that is, have an effect of preventing turbulence, and silver iodide (AgI) reacts with chlorine to form AgCl. What releases I _2, that is, only captures Cl ₂ and passes others, silver (Ag) completely captures I ₂ and passes others, and Polapack Q (trademark; USA) Waters Associates column packing, the same applies hereinafter) that adsorbs most of I ₂ , that is, partially passes through,
It is intended to complete Ho捉with Ag, silica gel is the same as the Porapak Q, and activated alumina full of I ₂ Ho捉those H ₂ is passed through, however, CO ₂ is adsorbed, thus CO ₂ analysis Is not applicable. The column is preferably a quartz tube, and may be glass.

 Hereinafter, the present invention will be described in detail.

1 and 2 are schematic diagrams each showing an embodiment of a column for removing corrosive gas according to the present invention. FIG. 1 shows O ₂ , N ₂ , CO ₂ in a test gas containing chlorine gas. FIG. 2 shows a column for removing corrosive gas for gas chromatography for analyzing an inorganic gas such as CO, and FIG. 2 shows a gas chromatography for analyzing an inorganic gas such as H _{2 in} a test gas containing chlorine gas.
FIGS. 3 and 4 show O ₂ and N in chlorine gas-containing test gas, respectively.
FIG. 3 is a block diagram of a gas chromatography for analyzing an inorganic gas such as ₂ , CO ₂ and CO. FIG. 3 is an example of a series type, and FIG. 4 is an example of a parallel type. Fig. 5 shows H ₂ in the test gas containing chlorine gas.
It is a block diagram which shows the example of gas chromatography which performs analysis of an inorganic gas like this.

First, the outline of the gas chromatography for inorganic gas analysis will be described with reference to FIGS.

In the figure, 1 is an inlet for a chlorine gas-containing test gas,
Reference numeral 2 denotes a packing column, and the present invention includes an embodiment in which the column is divided into two columns, a column A · 2a and a calm B · 2b, and is arranged in series or in parallel. That is, in the embodiment shown in FIG. 3, by using two gas chromatography detectors, the analysis is performed by synthesizing the chromatography detected by the detectors 1.3a and 2.3b. On the other hand, in the embodiment shown in FIG.
2b, and the test gas flowing out of the column A 2a and the column B 2b is guided to the detector 3 for analysis.

In addition, as a filler for the column A 2a, a molecular sieve 13X manufactured by Gascro Industry Co., Ltd. is used, and the column B 2b
Waters Polapack is used as the filler.

In addition, as the packing material of the column 2 in the gas chromatography for inorganic gas analysis such as H ₂ gas shown in FIG.
For example, a molecular sieve 5A manufactured by Gascro Industry Co., Ltd. is used.

The column for removing corrosive gas according to the present invention is indicated by reference numeral 4A or 4B in the figure.

First, referring to FIG. 1, a corrosive gas removing column 4A used for gas chromatography for analyzing an inorganic gas such as O ₂ , N ₂ , CO ₂ , CO in a test gas containing chlorine gas.
At the gas inlet 5 (Teflon (trademark; DuPont, USA; the same applies hereinafter) made of a pipe or the like) connected to the inlet 1 of the chlorine gas-containing test gas, and the gas inlets of the filler columns 2.2a and 2b. Gas outlet 6 to be connected (Teflon pipe, etc.)
A silver iodide-filled part 8 is disposed on the gas inlet 5 side, and O ₂ , N ₂ , CO ₂ is disposed on the gas outlet 6 side. _2, CO such analyte inorganic gases are passed but, I ₂ is filling portion 9 is arranged to Ho捉(see FIG. 1). However, as shown in FIG. ₂ , in a corrosive gas removal column used for gas chromatography for analyzing an inorganic gas such as H _{2 in} a chlorine gas-containing test gas, an inorganic gas to be analyzed such as H ₂ The filling section 10 for catching I ₂ is disposed.

More specifically, in the column for removing corrosive gas shown in FIG.
A directed, quartz beads filling portion 11, the silver iodide filling unit 8, I ₂ adsorbent filling unit 9, a quartz bead packing unit 12, the heat insulating unit 13, silver-filled portion
14 are arranged. On the other hand, in the corrosive gas removing column shown in FIG.
A quartz bead filling section 11, a silver iodide filling section 8, an activated alumina filling section 10, and a quartz bead filling section 15 are arranged.

In the drawing, 16 indicates a Teflon pipe, and 17 indicates quartz wool.

[Examples] Hereinafter, the present invention will be illustrated with examples.

Example 1 In the arrangement example shown in FIG. 4, the column shown in FIG. 1 was used as a column for removing corrosive gas. Helium was used as a carrier gas, and chlorine gas generated during electrolysis was collected using a gas sampler, and was used in the test. As the detector 3, a heat conduction type gas chromatography GC-3BT is used.
Using a TCD (manufactured by Shimadzu) with a blitch current of 1
00 mA, gas flow rate 2.0 kg / cm ² , column 2a, 2b temperature 50 ° C., as packing material A · 2a, molecular sieve 13X 60/80 3m manufactured by Gascro Industry Co., Ltd. 100 2m each was used.

 The filler for the corrosive gas removal column 4A is quartz beads 60/80 mesh for gas chromatography, special grade of reagent for silver iodide elemental analysis 14/24 mesh, special grade of reagent for silver elemental analysis 20/30 mesh for special elemental silver analysis Polapack Q for gas chromatography 80 / 100mesh was used.

One sample volume of 2 ml was repeated 120 times over 6 months. However, it was possible to perform high-precision CO ₂ analysis without the need to replace the detector and the columns A and 2a and the columns B and 2b.

Comparative Example 1 An experiment was performed in the same manner as in Example 1 except that the corrosive gas removing column 4A was not used. The detector and the filler column were corroded by the corrosion on the 20th time (after about one month). Was not stable, the sensitivity was poor, the measurement became impossible, and it was necessary to replace the detector and the columns A and 2b and the columns B and 2b.

Example 2 In Example 1 described above, the arrangement shown in FIG. 5 was changed to the corrosive gas removing column 4B shown in FIG.
Was tried of H ₂ analysis of chlorine in the gas, one sample volume
In 2 ml, over 6 months, repeated 120 times, detectors and without the need for replacement of the column 2, was capable of high accuracy H ₂ analysis.

As the activated alumina, a reagent grade activated alumina 30/60 mesh for gas chromatography was used.

Comparative Example 2 An experiment was carried out in the same manner as in Example 2 except that the corrosive gas removal column 4B was not used. Was not stable, the sensitivity was poor, the measurement was impossible, and the detector and the column 2 had to be replaced.

[Effects of the Invention] According to the present invention, in any of the series type, parallel type and double structure type, corrosion of devices such as detectors and packing columns is prevented, and high-precision analysis is extended. This can be performed over a period.

[Brief description of the drawings]

1 and 2 are schematic diagrams each showing an embodiment of a column for removing corrosive gas according to the present invention. FIG. 1 shows O ₂ , N ₂ , CO _{2 in a} chlorine gas-containing test gas. FIG. 2 shows a corrosive gas removal column for gas chromatography for analyzing inorganic gases such as CO and CO. FIG. 2 shows a corrosion column for gas chromatography for analyzing inorganic gases such as H _{2 in} a test gas containing chlorine gas. It is a column for removing reactive gas. FIGS. 3 and 4 are block diagrams of gas chromatography for analyzing an inorganic gas such as O ₂ , N ₂ , CO ₂ , and CO in a test gas containing chlorine gas. FIG. FIG. 4 shows an example of the parallel type. FIG. 5 is a block diagram showing an example of gas chromatography for analyzing an inorganic gas such as H _{2 in} a chlorine-containing test gas. 1. Injection port 2.2a, 2b Column 3.3a, 3b Detector 4A, 4B Column for removing corrosive gas

Claims (6)

(57) [Claims] (1) O ₂ , N ₂ , CO ₂ or C in chlorine gas-containing test gas
In gas chromatography for analyzing an inorganic gas such as O, chlorine gas in a chlorine gas-containing test gas is removed using silver iodide, and an inorganic gas to be analyzed such as O ₂ , N ₂ , CO ₂ or CO is removed. While passing, I ₂ after the Ho捉method for removing corrosive gases in the inorganic gas analysis gas chromatography, characterized in that through the filler column. 2. A gas chromatography to analyze the chlorine gas containing such inorganic gas H ₂ in the gas to be detected, the chlorine gas of chlorine gas containing a test gas was removed using silver iodide, H ₂ Although such analyte inorganic gases passing, I ₂ after the Ho捉method for removing corrosive gases in the inorganic gas analysis gas chromatography, characterized in that through the filler column. Wherein O ₂ of chlorine gas containing a test gas, N _2, CO ₂ or
In a column for removing corrosive gas used in gas chromatography for analyzing inorganic gases such as CO, a gas inlet connected to an inlet of a test gas containing chlorine gas and a gas inlet connected to a gas inlet of a packing column are used. The gas outlet has a connection part, and the silver iodide-filled part is arranged on the gas inlet side, and an inorganic substance such as O ₂ , N ₂ , CO ₂ or CO is located on the gas outlet side. A column for removing corrosive gas, characterized in that a gas-permeable column is provided for I ₂ , but a trapping portion for capturing is provided. 4. A column for removing corrosive gas used in gas chromatography for analyzing an inorganic gas such as H ₂ in a chlorine-containing test gas, which is connected to an inlet of the chlorine gas-containing test gas. A gas inlet and a gas outlet connected to a gas inlet of the filler column have a connection portion, and a silver iodide filled portion is arranged on the gas inlet side, and H is connected on the gas outlet side. ₂ such analyte inorganic gases pass but, I ₂
Is a column for removing corrosive gas, wherein a column for capturing is disposed. 5. The billing corrosive gas removing column of claim 3, toward the gas outlet from the gas inlet, quartz beads filling portion, silver iodide filling unit, I ₂ adsorbent filling unit, a quartz bead packing unit A column for removing corrosive gas, wherein a column, a heat insulating part, and a silver filling part are arranged. 6. A column for removing corrosive gas according to claim 4, wherein a quartz bead filling section, a silver iodide filling section, an activated alumina filling section, and a quartz bead filling section are arranged from the gas inlet to the gas outlet. A column for removing corrosive gas, comprising: