JP2006132941A - Gas sampling device and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a simple gas sampling device and a gas sampling method for enhancing analytical accuracy, in gas sampling for collecting an analytical sample of treating gas in an iron mill by using an injector. <P>SOLUTION: This gas sampling device collects the analytical sample of the treating gas in the iron mill by using the injector. The gas sampling device and the gas sampling method are characterized by substituting the gas inside the injector with the analytical sample by arranging a three-way valve in a conducting pipe on the injector inlet side. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a gas sampling apparatus and a gas sampling method for collecting an analysis sample of a gas handled in an ironworks using a syringe.
Specifically, the present invention relates to a gas sampling apparatus and a gas sampling method that can easily sample gas (combustion gas, exhaust gas, and atmospheric gas) handled in an ironworks and can greatly reduce the measurement preparation time.

Steelworks handle various gases, such as combustion gases used in heating furnaces, exhaust gases, and atmospheric gases. These gases are periodically sampled and analyzed to ensure proper operation. ing.
FIG. 3 is a diagram illustrating a conventional sampling device.
As shown in FIG. 3, in the conventional gas sampling method, a pump and a gas sample bottle are connected to a gas take-off valve provided in each facility in a steelworks that handles gas, and a gas to be an analysis sample is collected by this pump. This is a method of sucking and collecting in a gas sample bottle (collection bottle), and a specific procedure is shown below.
1. The pump and the collection bottle are not connected at first.
2. There is a clip on the conducting tube at both ends of the gas collection bottle so that water does not leak.
3. Start the pump and allow enough gas to be collected.
4. Connect the pump and the collection bottle.
5. Loosen the clip on the collection bottle (two on each side).
6. Water inside sampling bottle and sampling gas are replaced.
7. A little air is mixed in 4., but the mixed air is discharged by using the replacement time sufficiently.
8. Fully replace and keep clips on both sides of the collection bottle while the pump is still running (ventilated).
Thus, by using a water-sealed air collection bottle as the gas sample bottle, the outside air is shut off to prevent air from being mixed into the analysis sample.
However, this conventional method requires a lot of equipment such as pumps and requires a lot of time for preparation, and since the pump is used, it requires time for secondary work such as securing power at the sampling site. In addition, the weight of the device is heavy, and since the air collection bottle is made of glass, it is fragile and handling such as transportation is complicated, and it is necessary to perform it regularly. It took effort and cost.
In addition, the rubber tube used for the conducting tube up to the air collection bottle, the connection between the rubber tube and the air collection bottle, and the clip tightening part have poor sealing properties. There was a problem that it was not possible to perform a proper analysis.

As a gas sampling device used outside the steelworks, for example, in Japanese Patent Laid-Open No. 2001-221724, sampling a soil gas using a syringe-type suction device does not require a forced suction device such as a pump. A method is disclosed.
However, this method has a problem in that the sampling gas composition changes due to the presence of air inside the conducting tube up to the syringe barrel.

JP 2001-221724

  The present invention solves the above-described problems of the prior art, and in gas sampling in which an analysis sample of a gas handled in an ironworks is collected using a syringe, a gas sampling apparatus and a gas sampling which are high in analysis accuracy and simple It is an object to provide a method.

The present invention provides a gas sampling apparatus and a gas sampling device that are high in analysis accuracy and simple by providing a three-way valve in a conducting pipe of an analysis sample in gas sampling for collecting an analysis sample of a gas handled in an ironworks using a syringe. The present invention provides a method, the gist of which is as follows, as described in the scope of claims.
(1) A gas sampling device that collects a gas analysis sample handled in an ironworks using a syringe, and the gas inside the syringe is analyzed by installing a three-way valve in a conducting tube on the syringe inlet side. A gas sampling device characterized in that the gas sampling device is replaced.
(2) A method using the gas sampling device according to (1),
From the intake side of the three-way valve, suck the gas of the analysis sample,
A gas sampling method characterized in that the gas inside the syringe is replaced with an analysis sample by repeating a process of discharging the gas inside the syringe from the exhaust side of the three-way valve a plurality of times.

According to the present invention, in gas sampling in which an analytical sample of a gas handled in an ironworks is collected using a syringe, the air inside the conducting tube is replaced with the sampling gas by providing a three-way valve in the conducting tube of the analytical sample. Therefore, it is possible to provide a gas sampling apparatus and a gas sampling method that are high in analysis accuracy and simple, and have the following industrially useful remarkable effects.
1) The measurement preparation work can be greatly simplified and the working time can be shortened.
2) An accompanying device such as a pump is not required, a power source is not required, sampling is simple, the device can be simplified, and the entire device can be made inexpensive.
3) By using a conductive tube with high sealing properties, there is no change in gas composition compared to the conventional case even when left for several days.

The best mode for carrying out the present invention will be described in detail with reference to FIGS.
FIG. 1 is a diagram illustrating an embodiment of a gas sampling device of the present invention.
In FIG. 1, 1 is a sampling syringe, 2 is a piston, 3 is a piston container, 4 is a three-way valve, 5 is a sampling tube (conducting tube), 6 is an intake port, 7 is an exhaust port, 8 is an atmospheric gas outlet, Reference numeral 9 denotes a furnace wall.
As equipment in a steelworks that handles gas, for example, an atmosphere gas outlet 8 as shown in FIG. 1 is provided in the furnace wall 9 of the heating furnace, and it is periodically checked to check the operating state of the heating furnace. It is necessary to sample and analyze the atmospheric gas.
The gas sampling device of the present invention is a gas sampling device that collects a gas analysis sample handled at an ironworks using a syringe 1, and by installing a three-way valve 4 in the conducting tube 5 on the syringe inlet side, The gas inside the syringe 1 is replaced with an analysis sample.

Conventionally, as described above, gas sampling was performed using a pump and a water-sealed air collecting bottle. Therefore, much labor and time were required, and the rubber tube used for the conducting tube, the rubber tube and the collecting tube were used. The analysis accuracy was not sufficient because the sealing performance of the air bottle connection part and clip fastening part was poor.
Therefore, in the present invention, the gas as the analysis sample is sampled using the syringe 4 and the three-way valve 4 is installed in the conducting tube including the sampling tube 5 that guides the gas to the syringe 4. By substituting with the analysis sample, the gas sampling operation can be remarkably improved as compared with the conventional case, and the analysis accuracy can be remarkably improved by preventing air from being mixed into the analysis sample.
In the present invention, the material of the sampling tube 5 and the syringe 1 is not limited, but by making the sampling tube 5 made of silicon, leakage of gas from the tube can be prevented, and the syringe 1 is made of plastic. By making it, it is lighter than glass and material costs can be reduced.

FIG. 2 is a diagram illustrating an embodiment of the gas sampling method of the present invention.
In FIG. 2, 1 is a sampling syringe, 2 is a piston, 3 is a piston container, 4 is a three-way valve, 5 is a sampling tube (conducting tube), 6 is an intake port, 7 is an exhaust port, 8 is an atmospheric gas outlet, Reference numeral 9 denotes a furnace wall.
The gas sampling method of the present invention is a method using the gas sampling device described above, in which the gas of the analysis sample is drawn from the intake side of the three-way valve 4 and the syringe is supplied from the exhaust side 7 of the three-way valve 4. By repeating the step of discharging the internal gas a plurality of times, the gas inside the syringe is replaced with the analysis sample.
According to the present invention, in a gas sampling device using a syringe, by installing a three-way valve in a conducting tube portion, it is possible to replace the air inside the conducting tube with a sampling gas serving as an analysis sample, and to perform highly accurate sampling. Can do.

The gas sampling procedure will be described below with reference to FIG.
First, the sampling tube 5 is attached to the gas outlet 8 and the cock is opened.
Next, the piston 2 is retracted to suck the sampling gas.
Next, when the three-way valve 4 is set to the exhaust side and the piston is advanced and exhausted, the air initially in the piston container 3 and the sampling tube 5 can be discharged.
By repeating the above steps 3 to 4 times, the gas inside the piston container 3 and the sampling tube 5 is replaced with the sampling gas.
Next, the piston 2 is moved backward to suck the sampling gas and is closed by the three-way valve 4.
Then, the part of the three-way valve is connected to gas chromatography (gas composition analyzer) to perform measurement.
By the above procedure, the gas inside the syringe can be replaced with the analysis sample, and the analysis accuracy can be significantly improved.

FIG. 4 is a diagram showing an embodiment of the gas sampling method of the present invention.
The horizontal axis in FIG. 4 indicates the gas components, and the vertical axis indicates the concentration (%) of each component.
As shown in FIG. 4, compared to the left bar graph showing the standard gas, the central bar graph showing the sampling results using the conventional air collection bottles shows significant changes in the values of each component after being left for 3 days. However, the bar graph on the right side showing the sampling result of the present invention shows a concentration almost equal to the composition of the original standard gas even after being left for 3 days. According to the gas sampling method of the present invention, the analysis accuracy is the same as the conventional method. It was confirmed that it was significantly improved.

It is a figure which illustrates embodiment of the gas sampling device of this invention. It is a figure which illustrates embodiment of the gas sampling method of this invention. It is a figure which illustrates the conventional sampling device. It is a figure which shows the Example of the gas sampling method of this invention.

Explanation of symbols

1 Syringe syringe 2 Piston 3 Piston container 4 Three-way valve 5 Sampling tube (conducting tube)
6 Intake port 7 Exhaust port 8 Atmospheric gas outlet 9 Furnace wall

Claims (2)

  A gas sampling device that collects an analytical sample of a gas handled in an ironworks using a syringe, and replaces the gas inside the syringe with the analytical sample by installing a three-way valve in a conducting tube on the syringe inlet side. A gas sampling device characterized by the above. A method using the gas sampling device according to claim 1,
From the intake side of the three-way valve, suck the gas of the analysis sample,
A gas sampling method characterized in that the gas inside the syringe is replaced with an analysis sample by repeating a process of discharging the gas inside the syringe from the exhaust side of the three-way valve a plurality of times.

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