JP2004202343A - Gas generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas generator stably feeding a volatile organic compound at low concentration and at low flow rate. <P>SOLUTION: A split device 5 and a mixer 6 are installed at an exit of a permeator 4. Air is introduced from a water-containing air humidity adjustment device 3 to the permeator 4. While a part of a mixture gas of the volatile compound and air having a constant concentration generated by the permeator 4 is discharged to a discharge port in responsive to a split ratio by the split device 5, the mixture gas of appropriate flow rate is fed and is mixed with air from the air humidity adjustment device 3 by the mixer 6. The mixture gas of the volatile organic compound and air made to a low concentration is fed to a material evaluation device 7 and a test material 15 is evaluated. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gas generator for generating a volatile organic compound gas.
[0002]
[Prior art]
In recent years, a material having a low emission material and a material having a reducing function (for example, a waterproof sheet containing a formaldehyde catcher agent) has been developed with respect to air pollution caused by a chemical substance starting from the indoor environmental pollution (sick house) problem. As an evaluation method for these materials, a volatile organic compound gas is generated using a gas generator, and analysis and evaluation are performed (for example, see Patent Document 1).
Conventionally, as a device for generating a volatile organic compound gas of a certain concentration, a permeation tube method using a permeation tube in which a liquefied gas is sealed in a fluororesin tube as a source, and a liquid is injected into a diffusion tube (made of glass). In addition, there is a diffusion tube type permeator that generates a certain amount of gas using a diffusion rate by heating or the like.
[0003]
[Patent Document 1]
JP-A-10-80980
[Problems to be solved by the invention]
However, the conventional gas generator could stably generate only volatile organic compounds having a considerably high concentration (for example, toluene: flow rate 400 ml / min, concentration 22300 μg / m ³ or more). In addition, there is a considerable gap from the guideline value for indoor concentration (for example, the guideline value for toluene is 260 μg / m ³ ) as a measure against the indoor environmental pollution problem of the government. Evaluation of the effects and the like was difficult.
[0005]
The present invention has been made in view of the above points, and an object of the present invention is to provide a gas generator that stably supplies a volatile organic compound at a low concentration and a low flow rate.
[0006]
[Means for Solving the Problems]
In order to achieve the above-described object, the present invention provides a gas generator for generating a volatile organic compound gas, comprising: a supply unit for supplying a predetermined flow rate of a dilution gas; Gas generating means for generating a mixed gas of the volatile organic compound gas and the introduced diluent gas, and according to a predetermined split ratio, discharging a part of the mixed gas and sending out a mixed gas at an appropriate flow rate And a split means.
[0007]
Further, it is preferable that the gas generator includes mixing means for mixing the mixed gas with a diluent gas at a predetermined flow rate of the supply means to adjust the concentration of the volatile organic compound gas.
In addition, it is preferable that the gas generator includes an evaluation unit that sends the mixed gas and evaluates a material to be evaluated.
Further, it is preferable that the supply unit includes a humidity control unit that supplies a diluent gas controlled to a predetermined humidity as needed.
[0008]
In the present invention, the supply means supplies a predetermined flow rate of the dilution gas, the gas generation means generates the volatile organic compound gas, and the mixed gas of the predetermined concentration of the volatile organic compound gas and the dilution gas introduced from the supply means is generated. Then, according to a predetermined split ratio by the splitting means, a part of the mixed gas introduced from the gas generating means is discharged and a mixed gas of an appropriate flow rate is sent out.
[0009]
"Volatile organic compounds (VOCs)" are used in various products such as building materials, interior materials, and packaging materials, and volatile organic compounds are generated from these products such as building materials, interior materials, and packaging materials. It is brought into houses and daily life, causing indoor air pollution. As individual chemical substances, for example, formaldehyde contained in wood base material such as plywood, toluene, xylene, ethylbenzene used in solvents such as paints and inks, and paradichlorobenzene used in insect repellents, and various other chemical substances. is there.
[0010]
"Diluent gas" is air or an inert gas. The diluent gas is passed through a cleaning device (such as activated carbon) so as not to contain the components to be diluted.
"Split ratio" is a split injection method in which a part of a sample is injected into one of the sample injection methods. In the split injection method, the split ratio, that is, the ratio of the amount of sample entering the evaluation device to the amount of sample discarded, is determined. A sample with a corresponding flow rate is delivered. Such a method is called a split method.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the gas generator 1 according to the present invention will be described in detail with reference to the accompanying drawings. In the following description and the accompanying drawings, components having the same functional configuration will be denoted by the same reference numerals, and redundant description will be omitted.
[0012]
FIG. 1 is a diagram showing a schematic configuration of a gas generator 1 according to the present embodiment. The gas generating device 1 reduces a mixed gas of a volatile organic compound (VOC (Volatile Organic Compound)) of a certain concentration generated from a permeator and a diluting gas (air or inert gas) by a split device and a mixer. It supplies a volatile organic compound with a reduced flow rate and reduced concentration.
[0013]
FIG. 1 shows an example of a gas generator. As shown in FIG. 1, the gas generator 1 includes a thermostat 2, a humidified air humidity controller 3, a permeator 4, a splitter 5, a mixer 6, a plurality of mixers. , And the like. The gas generator 1 connects a pipe 11 from the humidified air / humidity controller 3 in the thermostat 2 to the permeator 4, the split device 5, the mixer 6, and the material evaluation device 7.
[0014]
The thermostat 2 keeps the inside at a predetermined test condition temperature.
[0015]
The water-containing air humidity adjusting device 3 produces air adjusted to a predetermined flow rate and a predetermined humidity, and supplies the air to the permeator 4 and the mixer 6. In this embodiment, air is supplied from the water-containing air humidity controller 3 as a diluent gas, but an inert gas (such as nitrogen) may be supplied as a diluent gas.
[0016]
The permeator 4 generates a standard gas of a volatile organic compound by using a diffusion tube, a permeation tube, or the like as a generation source. The diffusion tube is a glass tube having a constant inner diameter (10 mm, 20 mm, 30 mm, or the like). The liquid in the tube is evaporated by injecting a certain amount of liquid of an organic compound gas into the inside and keeping the tube at a constant temperature. The amount of diffusion becomes constant, and when a predetermined amount of diluent gas (air or the like) from the water-containing air humidity controller 3 is introduced, a standard gas of a volatile organic compound having an arbitrary concentration is generated. The permeation tube is a tube of a fixed length fluororesin tube filled with liquefied gas, and by keeping this at a constant temperature, the amount of liquefied gas permeating and diffusing in the tube becomes constant, and When a predetermined amount of a diluting gas (air or the like) from the air humidity controller 3 is introduced, a standard gas of a volatile organic compound having an arbitrary concentration is generated.
[0017]
The splitting device 5 divides the introduced mixed gas of the volatile organic compound and air by a split method according to a predetermined split ratio, and discharges a part of the mixed gas and sends out the mixed gas at an appropriate flow rate. I do. FIG. 2 shows the configuration of the split device 5.
[0018]
As shown in FIG. 2, the split device 5 includes a constant pressure control valve 20, an electromagnetic valve 21, a needle valve 22, a pump 23, and the like. A discharge flow path 25 for discharging a part of a certain mixed gas and a delivery flow path 26 for delivering an appropriate flow rate of the mixed gas to the mixer 6 are connected. The introduction flow path 24 is provided with a constant pressure control valve 20, and the discharge flow path 25 is provided with an electromagnetic valve 21, a needle valve 22, a pump 23 and the like.
[0019]
The constant pressure control valve 20 controls the pressure of the mixed gas introduced from the permeator 4 so that it becomes a set pressure. The solenoid valve 21 controls the flow rate of the exhaust gas, and the needle valve 22 controls opening and closing of the flow path. The pump 23 is a low flow rate pump for discharging and sucking into the outlet 9.
[0020]
The split device 5 controls the gas pressure introduced by the constant pressure control valve 20 to a predetermined value, and maintains the ratio (split ratio) of the gas flow rate flowing through the discharge flow path 25 and the delivery flow path 26 to a predetermined value by the solenoid valve 21. The mixed gas is sent to the mixer 6 at an appropriate flow rate.
Further, a flow meter (not shown) is attached between the splitting device 5 and the mixer 6, and the flow amount of the split gas is measured by the flow meter to check the flow rate.
[0021]
The mixer 6 mixes the mixed gas introduced from the splitting device 5 with the air introduced from the water-containing air humidity adjusting device 3 and sends out a mixed gas of a low-concentration volatile organic compound.
[0022]
The material evaluation device 7 is a device for evaluating the test material 15 (such as a building member), and is, for example, a chamber. In the evaluation by the chamber, for example, a test material having a low emission material or a reducing function is installed in the chamber, a predetermined flow rate, air containing a volatile organic compound at a predetermined flow rate is supplied, and the volatile organic material trapped by the test material is supplied. The amount of the compound (VOC) is analyzed and measured.
[0023]
Next, the flow of processing of the gas generator 1 will be described. FIG. 3 and FIG. 4 are flowcharts showing the flow of processing of the gas generator 1.
[0024]
As shown in FIG. 3, the temperature of the thermostat 2 is adjusted to a predetermined test temperature (step 301).
For example, the temperature of the thermostat 2 is set to 28 ° C.
[0025]
A liquid of a predetermined volatile organic compound is injected into a diffusion tube (or a permeation tube) of the permeator 4, and the permeator 4 is controlled to a constant temperature (Step 302).
For example, toluene (purity: 98%) is injected into a D-10 diffusion tube (inner diameter: 10 mm), and the permeator 4 is controlled at 30 ° C.
[0026]
From the humidified air humidity controller 3, a controlled flow rate of a predetermined flow rate and a predetermined humidity is supplied to the permeator 4 (step 303).
For example, the humidified air humidity controller 3 supplies air controlled to a relative humidity of 50% to the permeator 4 at 8000 ml / min.
[0027]
The permeator 4 generates a volatile organic compound gas from the diffusion tube maintained at a constant temperature, and sends out a mixed gas of the volatile organic compound gas having a predetermined concentration and the introduced air to the split device 5 (step 304).
[0028]
The standard gas concentration C (ppm) in the diffusion tube is as follows: K: coefficient for volume conversion of gas weight, Dr: diffusion rate (μg / min), F: dilution gas amount (ml / min),
C = K × Dr × 1000 / F ... Calculated from the equation (1).
For example, the standard gas concentration of toluene generated in a D-10 diffusion tube introduced with 8000 ml / min of a diluent gas (air) is 325 μg / min from the equation (1) and the standard diffusion tube data, and the flow rate is 8000 ml / min. And a mixed gas of toluene and air having a concentration of 325 μg / m ³ .
[0029]
The split device 5 introduces the mixed gas from the permeator 4 and splits the mixed gas into a discharge flow path 25 on the discharge side and a discharge flow path 26 on the material evaluation side (mixer 6 side) to a flow rate according to a predetermined split ratio. (Step 305).
For example, the split device 5 divides the introduced gas mixture of 8000 ml / min, 325 μg / m ³ of toluene and air into a split ratio of 24: 1 = discharge flow path 25: discharge flow path 26 and discharge flow path 25. And a mixed gas of toluene and air having a flow rate of 320 ml / min and a concentration of 325 μg / m ³ is delivered to the delivery channel 26.
[0030]
A mixed gas of a volatile organic compound and air in the split flow passage 26 at a predetermined flow rate is introduced into the mixer 6, and a predetermined flow rate of air from the water-containing air humidity controller 3 is mixed with the mixed gas. The lowered mixed gas of the volatile organic compound gas and air is sent out (step 306).
For example, the mixer 6 mixes 80 ml / min of air introduced from the humidified air humidity controller 3 with a mixed gas of toluene and air having a flow rate of 320 ml / min and a concentration of 325 μg / m ^{3 in} the delivery channel 26, A mixed gas of 400 ml / min and a concentration of 260 μg / m ³ of toluene and air is sent out.
[0031]
The mixed gas of volatile organic compound gas and air sent from the mixer 6 is introduced into the material evaluation device 7 (step 307).
For example, a mixed gas of toluene and air having a flow rate of 400 ml / min and a concentration of 260 μg / m ³ from the mixer 6 is divided into two paths and introduced into two material evaluation devices 7 at 200 ml / min. Different evaluations can be performed simultaneously by the two material evaluation devices 7, and the evaluation efficiency is improved.
[0032]
The material evaluation device 7 introduces a volatile organic compound having a predetermined flow rate and a predetermined concentration, and evaluates the effect of reducing the test material 15 to be evaluated (a low-emission material or a material having a reduction function) (Step 308).
[0033]
For example, the material evaluation device 7 (chamber) introduces a mixed gas of formaldehyde and air at a concentration of 200 ml / min and a concentration of 100 μg / m ³ , and prints a building material having an adsorbent as the test material 15 (for example, printing with a formaldehyde catcher agent-containing ink). (A decorative board to which a waterproof sheet is adhered), air before and after the test material 15 is installed is adsorbed to a trapping tube for a certain time (for example, 24 hours), and a formaldehyde-DNPH derivative is extracted from the trapping tube and extracted. The liquid is applied to an analyzer (high-performance liquid chromatography) to measure and evaluate the reduced amount of volatile organic compounds (VOC). still. Formaldehyde with a concentration of 100 μg / m ³ is the guideline value for indoor concentration presented as a measure against the indoor environmental pollution problem by the government. It is possible to evaluate whether or not the performance of clearing the guideline value of a certain volatile organic compound (VOC) is exhibited.
[0034]
As described above, according to the present embodiment of the present invention, the split device 5 and the mixer 6 are installed at the outlet of the permeator 4, and air is introduced into the permeator 4 from the humidified air humidity controller 3. The mixed gas of the volatile compound and air of a certain concentration generated by the permeator 4 is discharged by the splitting device 5 at a proper flow rate while discharging a part of the mixed gas in accordance with the split ratio. The mixed gas of the volatile organic compound and the air, which is mixed with the dilution gas (air) and reduced in concentration by 6, is supplied to the material evaluation device 7 to evaluate the test material 15.
[0035]
Thus, the volatile organic compound can be stably supplied at a low concentration and a low flow rate. Also, when evaluating the reduction effect of a material having a reduction performance, air containing a certain concentration of a volatile organic compound can be supplied. Further, it is possible to evaluate the performance of the evaluation device such as the recovery rate and the sink effect.
[0036]
In the present embodiment, a split device 5 is installed at the outlet of the permeator 4, and a mixed gas of a predetermined flow rate split by the split device 5 is introduced into a mixer 6, mixed with a diluent gas, and mixed with a dilute gas. The mixed gas of the volatile organic compound was sent out, but the mixer 6 was installed at the outlet of the permeator 4, and the mixed gas of the low-concentration volatile organic compound previously mixed with the diluent gas was introduced into the split device 5. The split may be performed at a predetermined flow rate.
[0037]
As described above, the preferred embodiment of the gas generator 1 according to the present invention has been described with reference to the accompanying drawings, but the present invention is not limited to such an example. It is obvious to those skilled in the art that various changes or modifications can be made within the scope of the technical idea disclosed in the present application, and these naturally belong to the technical scope of the present invention. I understand.
[0038]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to provide a gas generator that stably supplies a volatile organic compound at a low concentration and a low flow rate.
[Brief description of the drawings]
1 is a diagram showing a schematic configuration of a gas generator 1 according to the present embodiment; FIG. 2 is a diagram showing a configuration of a split device 5; FIG. 3 is a flowchart showing a processing flow of the gas generator 1; A flow chart showing the flow of processing of the gas generator 1.
1 gas generating device 2 constant temperature bath 3 humidified air humidity device 4 permeator 5 split device 6 mixer 7 material evaluation device 9 Discharge port 15 Test material 20 Constant pressure control valve 21 Solenoid valve 22 Needle valve 23 Pump

Claims (5)

A gas generator for generating a volatile organic compound gas,
Supply means for supplying a predetermined flow rate of dilution gas,
Gas generating means for generating a volatile organic compound gas and generating a mixed gas of the volatile organic compound gas of a predetermined concentration and the introduced diluent gas,
According to a predetermined split ratio, while discharging a part of the mixed gas, a split means for sending an appropriate flow rate of the mixed gas,
A gas generator comprising: Mixing means for mixing the diluted gas at a predetermined flow rate of the supply means with the mixed gas and adjusting the concentration of the volatile organic compound gas,
The gas generator according to claim 1, further comprising: The evaluation means for feeding the mixed gas and evaluating a material to be evaluated,
The gas generator according to claim 1, further comprising: The supply means,
2. The gas generator according to claim 1, further comprising humidity control means for supplying a diluent gas controlled to a predetermined humidity as required. The gas generator according to claim 1, wherein the dilution gas is air or an inert gas.

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