JP2000046472A - Method for drying - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate containing of an organic chlorine compound (dioxin and the like) in an exhaust gas of a dryer in the case of drying a substance containing an organic material or a carbon-containing compound and a chlorine compound. SOLUTION: A material 2 to be dried and a heating medium 5 are charged in a drying container 1b, dried, and discharged as a dried material 9. A part of an exhaust gas 10 is introduced into a carbon monoxide concentration continuous analyzer 11, and a concentration of a carbon monoxide contained in the gas 10 is measured. A reference value of the carbon monoxide concentration is set to a range of 10 to 100 ppm, a value of the reference value or less is maintained by the analyzer 11, and operated. When an abnormal state for generating an organic chlorine compound is sensed by a warming unit 14 operating in the case that the measured value exceeds the reference value, the dryer of the concentration is controlled so as to maintain the reference value.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates generally to a method for drying, disinfecting, and changing the properties of foods and food raw materials, and wastes such as refuse or incineration residues of refuse. The present invention relates to a drying process included in a fuel (RDF) manufacturing process and a compost manufacturing process.

[0002]

2. Description of the Related Art Processes for producing solid waste fuel (RDF) from municipal or industrial waste and compost from kitchen refuse and organic sludge usually include a drying step. . In this drying step, a drying apparatus of a type in which propane, natural gas, kerosene, heavy oil, or the like is burned to generate hot air, and an object to be dried is brought into direct contact with the hot air to heat it is used. Fig. 9 shows the most frequently used rotary kiln type direct heating dryer.
Shown in

[0005] As shown in FIG. 9, the material to be dried 2 is supplied in a fixed amount into a rotary drum 1 a by a charging device 3. On the other hand, the fuel 6a and the combustion air 6b are supplied to the hot blast stove 7 to generate hot air, which is directly blown onto the object 2 to be dried. Here, in order to increase the contact efficiency between the hot air and the object to be dried 2 and increase the drying efficiency, the rotating drum 1a
In some cases, the agitating blade 4 is rotated about an axis at the center of the agitator to agitate the object to be dried.

[0004] The material to be dried 2 is discharged as a dry material 9 from a discharge device 8. The supplied hot air is discharged as the exhaust gas 10 through the inducing fan 16 together with the generated steam.

The temperature of the hot air generated in the hot air stove 7 is 600
Although it is about 1500 ° C., it may ignite when it comes into contact with the object to be dried. Therefore, the temperature of the hot air is reduced by returning a part of the exhaust gas 10 to the drying device (the rotary drum 1a) again through the circulation bypass 17.
20 wt. The temperature of the hot air immediately before coming into contact with the object to be dried containing water of not less than 350% is about 350 to 600 ° C., and the gas temperature after the contact with the object to be dried is 70 to 2 ° C.
It is about 00 ° C. The temperature of the material to be dried at the outlet of the drying device is usually lower than the gas temperature, and is about 70 ° C.

[0006]

In these drying processes, it was thought that there was no generation of organic chlorine compounds such as polychlorobenzenes and polychlorophenols for the following reasons.

1) The temperature of the object to be dried having a high water content does not rise. 2) The concentration of HCl in the exhaust gas of the drying device required to supply chlorine, which is a constituent element of the organic chlorine compound, is usually as low as about 10 ppm or less.

[0008] 3) It is known that an organic chlorine compound is synthesized in a process of cooling a gas generated by combustion of waste or the like, and at this time, fly ash functions as a catalyst. This fly ash is not present in the drying process.

However, a detailed study of the generation behavior of the organic chlorine compound in the drying process revealed that the organic chlorine compound could be detected at the outlet of the drying device. This is for the following reason.

1) Even if the average temperature of the material to be dried does not rise, there are organic substances that evaporate into the atmosphere gas due to local overheating, and the temperature of the atmosphere gas is sufficient to synthesize an organic chlorine compound.

2) Even if the HCl concentration is about 10 ppm or less, it is sufficient to synthesize an organic chlorine compound of about several μg / Nm ³ . 3) Although the amount of production is small, an organic chlorine compound can be synthesized even without a catalyst.

It has been found that the amount of the organic chlorine compound generated increases as the temperature of the heating medium charged into the drying vessel increases in order to increase the thermal efficiency and reduce the size of the apparatus.
In particular, when the temperature of the heating medium is 350 ° C. or higher, the amount of generation is remarkable. Also in drying on a surface heated by applying electricity to an electric heater or the like (hereinafter, referred to as a “heating surface”), when the temperature of the heating surface becomes 350 ° C. or more, the generation amount of the organochlorine compound remarkably increases for the same reason. More.

In order to prevent this harmful organochlorine compound from being released to the environment, it is effective to continuously measure the concentration of the organochlorine compound in the exhaust gas and to implement a means for reducing the concentration as necessary. is there. The concentration of the organochlorine compound can be measured with an electron capture detector or a gas chromatograph equipped with a mass spectrometer, but continuous measurement is difficult with these devices. And the procedure of measurement was required.

Accordingly, an object of the present invention is to provide a method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound, in which the presence of the organic chlorine compound in the exhaust gas is detected at low cost, easily and continuously. It is an object of the present invention to provide a means capable of minimizing the content of an organic chlorine compound in an exhaust gas.

[0015]

SUMMARY OF THE INVENTION The present invention relates to a method for drying a substance containing an organic substance or a carbon-containing compound and a chlorine compound. It does not detect an organic chlorine compound in the exhaust gas and has the following configuration.

According to a first aspect of the present invention, there is provided a method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound. Is characterized in that the concentration of carbon monoxide contained in the gas discharged from the gas is measured, and the concentration of carbon monoxide is used as an index of the concentration of the organic chlorine compound contained in the gas.

According to a second aspect of the present invention, there is provided a method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound. Measuring the concentration of carbon monoxide contained in the gas discharged from the apparatus, and controlling the concentration of the organic chlorine compound contained in the gas by controlling the drying device based on the concentration of the carbon monoxide. Drying method.

According to a third aspect of the present invention, in the drying method of the second aspect, the concentration of the carbon monoxide is 100 ppm.
It is characterized by maintaining the following. The invention according to claim 4 provides an organic substance or a carbon-containing compound, and
In a method of drying a substance containing a chlorine compound,
The concentration of carbon monoxide contained in the gas generated from the material to be dried and / or in contact with the material to be dried and discharged from the drying device is measured, and the concentration of the carbon monoxide is reduced to 10 ppm.
It is characterized in that the concentration of the organic chlorine compound contained in the gas is controlled while maintaining the concentration at a predetermined value of 100 ppm or less.

According to a fifth aspect of the present invention, there is provided a method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound, the method comprising the steps of: Measure the concentration of carbon,
It is characterized in that the concentration of the carbon monoxide is used as an index of the concentration of an organic chlorine compound contained in the gas.

According to a sixth aspect of the present invention, there is provided a method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound, the method comprising the steps of: Measure the concentration of carbon,
The method is characterized in that the drying device is controlled based on the concentration of the carbon monoxide to control the concentration of an organic chlorine compound contained in the gas.

According to a seventh aspect of the present invention, in the drying method of the sixth aspect, the concentration of the carbon monoxide is 100 ppm.
It is characterized by maintaining the following. The invention according to claim 8 provides an organic substance or a carbon-containing compound, and
In a method of drying a substance containing a chlorine compound,
The concentration of carbon monoxide contained in the atmosphere gas in contact with the object to be dried inside the drying apparatus is measured, and the concentration of the carbon monoxide is maintained at a predetermined value of 10 ppm or more and 100 ppm or less, and It is characterized in that the concentration of the contained organic chlorine compound is controlled.

Next, the operation of the present invention having the above configuration will be described. From a commonly used drying apparatus, an organic chlorine compound having a concentration that cannot be ignored is generated depending on the type of the material to be dried and the drying conditions. The present inventors include a gas generated from and / or in contact with the material to be dried and discharged from the drying device, and an atmosphere gas in contact with the material to be dried inside the drying device. It has been found that the concentration of the organic chlorine compound has a positive correlation with the concentration of carbon monoxide contained in the gas. By measuring the concentration of carbon monoxide contained in the gas using a known carbon monoxide concentration analyzer such as an infrared gas analyzer, the concentration of the organic chlorine compound contained in the gas can be reduced, easily and easily. It is possible to detect continuously.

Here, in the combustion of waste, it is known that the concentration of organic chlorine compounds contained in the flue gas has a certain correlation with the concentration of carbon monoxide contained in the gas. It is common to control incinerator combustion on the basis of reducing the concentration of carbon monoxide. The amount of carbon monoxide, which is an intermediate product of the combustion reaction, in the exhaust gas is an index of the degree of incomplete combustion. However, the combustion exhaust gas and the dry exhaust gas are essentially different, and carbon monoxide is generated even in heating without any combustion, such as drying in the present invention, and the carbon monoxide concentration is organic. It has never been known that there is a correlation with the concentration of a chlorine compound, and this is a fact newly discovered by the present inventors. Also,
By controlling the drying apparatus using the carbon monoxide concentration as an index, an advanced drying method that does not emit harmful substances into the environment can be realized.

A drying apparatus provided with a means for detecting the concentration of carbon monoxide is disclosed in, for example, JP-A-57-1322.
No. 13 (hereinafter referred to as "prior art 1") and
-793 (hereinafter referred to as "prior art 2") has been proposed. However, the prior art 1 aims at detecting the alteration of the object to be dried by detecting a reducing gas containing carbon monoxide, and in the prior art 2, it is not carbon monoxide generated from the object to be dried. Another object of the present invention is to detect carbon monoxide generated when the combustion state of a burner that generates hot air for drying an object to be dried deteriorates.

On the other hand, the present invention uses an easily measured concentration of carbon monoxide as a means for detecting the concentration of an organic chlorine compound which has a much greater effect on the environment than carbon monoxide. This is different from the above-described invention.

The gas generated from the material to be dried and / or discharged from the drying device in contact with the material to be dried, and the carbon monoxide concentration of the atmospheric gas in contact with the material to be dried inside the drying device are: , 100 ppm or less, preferably 1
When the concentration is 0 ppm or less, the concentration of the organic chlorine compound in the gas is almost negligible, which is the detection limit. Here, when carbon monoxide is contained in advance in a gas to be brought into direct contact with the object to be dried as a heat medium or a purge gas, the gas is generated from the object to be dried and / or comes into contact with the object to be dried. Gas discharged from the drying device, and
The concentration of carbon monoxide in the atmosphere gas in contact with the object to be dried in the drying device is detected as a value higher than the value due to only carbon monoxide generated in the drying device. In this case, it goes without saying that the concentration corresponding to the carbon monoxide input to the apparatus must be subtracted from the measured value.

Further, the present inventors are effective in reducing the concentration of the organic chlorine compound in the exhaust gas of the drying device by lowering the internal temperature of the drying device or the temperature of the heat medium to be charged. (Japanese Patent Application No. 9-32)
No. 8868).

From this, it is generated from the material to be dried, and / or
Alternatively, the concentration of carbon monoxide contained in the gas that comes into contact with the object to be dried and is discharged from the drying device, or the atmospheric gas that is in contact with the object to be dried inside the drying device is measured. Desirably, when the concentration exceeds 10 ppm, the internal temperature of the drying apparatus or the temperature of the heat medium to be charged is reduced until the concentration of carbon monoxide of the gas becomes 100 ppm or less, preferably 10 ppm or less, whereby the organic chlorine is reduced. Compounds can be prevented from being contained in exhaust gas. Here, the carbon monoxide concentration of the gas is 100
Means for maintaining the concentration at not more than 10 ppm, desirably not more than 10 ppm is not particularly limited to the method of lowering the internal temperature of the drying device or the temperature of the heat medium to be charged.

In particular, in the case of a drying apparatus in which the generation of an organochlorine compound is very small, a gas generated from an object to be dried and / or is discharged from the drying apparatus in contact with the object to be dried, or the inside of the apparatus. The concentration of carbon monoxide contained in the atmosphere gas in contact with the object to be dried is measured, and a predetermined value of 10 ppm or more and 100 ppm or less is determined in advance as a reference value, and the measured value is maintained at or below this value. By performing drying while confirming this, it is possible to easily, inexpensively, and continuously confirm that the organic chlorine compound is not contained in the exhaust gas. here,
For example, it is possible to confirm that the measured value does not exceed the reference value by installing an alarm device that operates when the measured value exceeds the reference value, or by continuously recording the measured value. It is also possible to present a continuous record of the carbon monoxide concentration of the gas to indicate that no organochlorine compounds have been emitted.

[0030]

Next, an embodiment of the present invention will be described with reference to the drawings. [First Embodiment] FIG. 1 is a process diagram showing a drying apparatus according to a first embodiment of the present invention. As shown in FIG. 1, in the drying device, the material 2 to be dried is placed in a drying vessel 1 b.
The heat medium 5 is supplied, and the dried material 9 and the exhaust gas 10 are discharged. The drying container 1b may have a single structure in which the heat medium 5 is brought into direct contact with the object 2 or a double structure in which the heating medium 5 is indirectly brought into contact with the object. The heat medium 5 may be either gas or liquid. The method of heating the drying container 1b is not limited to the method of charging the heating medium 5, and a surface heated by supplying electricity to an electric heater or the like may be used (not shown). The pressure in the drying container 1b may be either a positive pressure or a negative pressure.

In order to measure the concentration of carbon monoxide contained in the exhaust gas 10, a part of the exhaust gas 10 is introduced into a carbon monoxide concentration continuous analyzer 11. As a method of introducing the gas, means for incorporating a pump into the analyzer 11 and thereby sucking gas is used. Carbon monoxide continuous analyzer 1
As 1, for example, an infrared gas analyzer is used, but the invention is not particularly limited to this.

The exhaust gas 10 passes through a gas purifying device (not shown) as required, and then is released to the atmosphere. The measured value of the carbon monoxide concentration analyzer 11 is displayed so that the device driver can recognize it. Furthermore, by preparing a calibration curve showing the relationship between the concentration of carbon monoxide and the concentration of the organic chlorine compound, and installing a converter for converting the measured value of the concentration of carbon monoxide into the concentration of the organic chlorine compound, the operator of the drying device can be operated. Can continuously know the concentration of the organic chlorine compound (not shown).

[Second Embodiment] FIG. 2 is a process diagram showing a drying apparatus according to a second embodiment of the present invention.
The method of drying the article to be dried 2 is the same as in the first embodiment.

In order to measure the concentration of carbon monoxide contained in the atmospheric gas in contact with the object 2 to be dried in the drying vessel 1b, a part of the gas in the drying vessel 1b is subjected to a continuous carbon monoxide concentration analyzer. Introduce to 11. As a method of introducing the gas, means for incorporating a pump into the analyzer 11 and thereby sucking gas is used. As the carbon monoxide concentration continuous analyzer 11, for example, an infrared gas analyzer is used, but the present invention is not particularly limited to this.

The handling of the measured values of the continuous carbon monoxide concentration analyzer 11 is the same as in the first embodiment. [Third Embodiment] FIG. 3 is a process diagram showing a drying apparatus according to a third embodiment of the present invention. The method for drying the object to be dried 2 and the method for measuring the concentration of carbon monoxide contained in the exhaust gas 10 are the same as those in the first embodiment.

The signal from the continuous carbon monoxide concentration analyzer 11 is input to the controller 12. When the concentration of carbon monoxide exceeds a predetermined value set in advance, the control signal 13 output from the control device 12 controls the heating medium 5 so as to adjust the concentration of carbon monoxide to be lower than the predetermined value. The predetermined value is 10
The value is preferably 0 ppm or less, more preferably 10 pp.
m or less. The control method is, for example, to lower the temperature and / or the flow rate of the heat medium 5. As a method of returning the carbon monoxide concentration to a predetermined value or less, in addition to controlling the heating medium 5, spraying water into the drying container 1b to lower the temperature inside the container may be used. It does not do.

By lowering the temperature and / or flow rate of the heating medium 5 or the internal temperature of the drying vessel 1b, the concentration of carbon monoxide is reduced, but at the same time, the amount of heat given to the object 2 is reduced. As a result, the moisture content of the dried product 9 increases. In order to maintain the moisture content of the dried material 9 at a predetermined value, it is effective to reduce the amount of the material 2 to be dried. It is necessary to configure a system that keeps the moisture content of the dried material 9 constant by simultaneously controlling the heating medium 5 and the material to be dried 2 in order to maintain product quality.

[Fourth Embodiment] FIG. 4 is a process diagram showing a drying apparatus according to a fourth embodiment of the present invention.
The method for drying the object to be dried 2 and the method for measuring the concentration of carbon monoxide contained in the atmospheric gas in contact with the object to be dried 2 in the drying vessel 1b are the same as those in the second embodiment.

The control method of the drying apparatus based on the signal from the carbon monoxide concentration analyzer 11 is the same as that of the third embodiment. [Fifth Embodiment] FIG. 5 is a process diagram showing a drying apparatus according to a fifth embodiment of the present invention. The method for drying the object to be dried 2 and the method for measuring the concentration of carbon monoxide contained in the exhaust gas 10 are the same as those in the first embodiment.

The signal from the carbon monoxide concentration analyzer 11 is input to an alarm device 14. The alarm device 14 is activated when the concentration of carbon monoxide exceeds a set value of 10 ppm or more and 100 ppm or less. Carbon monoxide continuous analyzer 11
May be input to a continuous recorder to record the change with time (not shown).

The operator of the drying apparatus performs a normal operation under the condition that the organic chlorine compound is not contained in the exhaust gas 10, but confirms that the operation of the alarm device 14 has caused an abnormal situation in which the organic chlorine compound is generated. In this case, the setting conditions of the apparatus are changed, and adjustment is performed so that the measured value of the continuous carbon monoxide concentration analyzer 11 is equal to or less than the set value of 10 ppm or more and 100 ppm or less.

[Sixth Embodiment] FIG. 6 is a process diagram showing a drying apparatus according to a sixth embodiment of the present invention.
The method for drying the object to be dried 2 and the method for measuring the concentration of carbon monoxide contained in the atmospheric gas in contact with the object to be dried 2 in the drying vessel 1b are the same as those in the second embodiment.

The method of using the signal from the continuous carbon monoxide concentration analyzer 11 is the same as in the fifth embodiment.

[0044]

Next, an embodiment of the present invention will be described. An example of the experimental data according to the above-described embodiment will be described below.

Embodiment 1 First, an embodiment in which the concentration of carbon monoxide in the exhaust gas is measured, but the dryer is not controlled based on the measured value will be described. The apparatus is shown in FIG. 8, and a part of the exhaust gas 10 was introduced into an infrared carbon monoxide concentration continuous analyzer 11. In this embodiment, the control device 12 was not operated, and the control signal 13 was not output. Also,
At this time, the concentration of carbon monoxide in the hot air discharged from the hot blast stove 7 was also measured using an infrared carbon monoxide concentration analyzer (not shown), but the concentration was always 2 ppm or less. The experimental conditions at this time are shown.

Dry matter type: General waste (crushed to under 50 mm (below)) Dry matter input amount: 0.5 to 1.5 t (ton) / h (hour) Input water content: 40 to 50 wt. % Emission water content: 5 to 10 wt. % When the temperature of the hot air supplied to the rotary drum 1a is controlled such that the weight of the dried substance 2 supplied to the rotary drum 1a is changed and the moisture content of the dried substance 9 is substantially constant.
The concentration of carbon monoxide in the exhaust gas 10 decreased as the hot air temperature decreased. Dioxin (organic chlorine compound) concentration in the exhaust gas 10 (equivalent concentration [ng-TEQ / Nm ³ ])
Is plotted against the average concentration of carbon monoxide during the measurement of dioxin concentrations in FIG.
Indicated by The concentration of dioxins decreased as the concentration of carbon monoxide decreased, and a good correlation was found between the two. By using this calibration curve, it has become possible to continuously know the concentration of the organic chlorine compound from the concentration of carbon monoxide.

When the concentration of carbon monoxide in the exhaust gas 10 is 100
When the concentration was not less than ppm, the concentration of the organic chlorine compound in the exhaust gas 10 was not a negligible value. The hot air temperature is 350
In the conventional drying method in which the temperature is higher than or equal to ° C., the concentration of carbon monoxide in the exhaust gas 10 is usually 200 ppm or more.

When the concentration of carbon monoxide in the exhaust gas 10 is 100
As a result of operating the apparatus under the condition of not more than ppm, the concentration of the organic chlorine compound in the exhaust gas could be greatly reduced. [Example 2] Further, as Example 2, the concentration of carbon monoxide in the exhaust gas was measured, and the dryer was controlled based on the measured values. The device is as shown in FIG. A part of the exhaust gas 10 was introduced into an infrared type carbon monoxide concentration continuous analyzer 11, and the output of the measured value from the analyzer 11 was input to a controller 12. When the measured value of the analyzer 11 exceeds a predetermined value set in the control device 12, the control device 12 reduces the hot air temperature and the amount of the material 2 to be dried by a predetermined calculated value. The control signal 13 was sent to the furnace 7 and the charging device 3 for control. The set values of the concentration of carbon monoxide set in the control device 12 are 50 ppm and 10 ppm. Further, the charging device 3 continuously controls the moisture content of the dried product 9 by an output from an infrared moisture meter 15 for measuring the moisture content of the dried product 9 (control is not shown). Adjusted to match. The once lowered hot air temperature and the input amount of the dried object 2 were gradually returned to the initial set values. The experimental conditions at this time are shown.

Type of material to be dried: General waste (crushed to under 50 mm) The amount of material to be dried: 0.5 to 0.7 t (ton) / h (hour) Input water content: 40 to 50 wt. % Emission water content: 5 to 10 wt. %. The results of measuring the concentration of dioxins in the exhaust gas 10 and plotting them against the average concentration of carbon monoxide during the measurement of the concentration of dioxins are shown by white circles (○) in FIG. Compared to the case where no control was performed, the concentration of dioxins was able to be stably reduced to almost the lower limit of quantification for a long time.

[0050]

As described above, according to the present invention, in a method for drying a substance containing an organic substance or a carbon-containing compound and a chlorine compound, the presence of a harmful organic chlorine compound in the exhaust gas can be reduced. , It is possible to detect easily and continuously, and it is possible to suppress the content of the organic chlorine compound in the exhaust gas as much as possible, thus providing a useful effect.

[Brief description of the drawings]

FIG. 1 is a process diagram showing a drying apparatus according to a first embodiment of the present invention.

FIG. 2 is a process diagram showing a drying apparatus according to a second embodiment of the present invention.

FIG. 3 is a process diagram showing a drying device according to a third embodiment of the present invention.

FIG. 4 is a process diagram showing a drying apparatus according to a fourth embodiment of the present invention.

FIG. 5 is a process diagram showing a drying apparatus according to a fifth embodiment of the present invention.

FIG. 6 is a process diagram showing a drying apparatus according to a sixth embodiment of the present invention.

FIG. 7 is a graph showing the relationship between the concentration of carbon monoxide and the concentration of organic chlorine compounds in the exhaust gas of the drying device according to the embodiment of the present invention.

FIG. 8 is a schematic sectional view showing a drying apparatus according to an embodiment of the present invention.

FIG. 9 is a schematic sectional view showing an example of a conventional drying device.

[Explanation of symbols]

 1a: Rotary drum 1b: Drying container 2: Dry material 3: Input device 4: Stirring blade 5: Heat medium 6a: Fuel 6b: Air 7: Hot air stove 8: Discharge device 9: Dried product 10: Exhaust gas 11: One Carbon oxide concentration continuous analyzer 12: Control device 13: Control signal 14: Alarm device 15: Moisture meter 16: Induction fan 17: Circulation bypass

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Toshihiko Iwasaki 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Nihon Kokan Co., Ltd. (72) Inventor Shigeki Yamazaki 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Sun (72) Inventor Teruo Tachifuku, 1-2-1, Marunouchi, Chiyoda-ku, Tokyo, Japan Inventor (72) Inventor Takashi Yokoyama 1-2-1, Marunouchi, Chiyoda-ku, Tokyo, Japan Inside the Kokan Co., Ltd. (72) Inventor Yasuo Suzuki 1-1-2 Marunouchi, Chiyoda-ku, Tokyo, Japan Inside Nihon Kokan Co., Ltd. (72) Inventor Seiichi Abe 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Nihon Kokan Inside (72) Inventor Yoji Ogaki 1-2-1 Marunouchi, Chiyoda-ku, Tokyo Nihon Kokan Co., Ltd. F-term (reference) 3L113 AC15 AC45 AC46 AC51 AC63 AC64 AC68 AC81 AC90 BA01 CA02 CA12 CB24 CB34 CB37 DA07 DA25

Claims (8)

[Claims] 1. A method for drying a substance containing an organic substance or a carbon-containing compound and a chlorine compound, wherein the substance is generated from a substance to be dried and / or is brought into contact with the substance to be dried.
A drying method, comprising: measuring the concentration of carbon monoxide contained in a gas discharged from a drying device, and using the concentration of the carbon monoxide as an index of the concentration of an organic chlorine compound contained in the gas. 2. A method for drying a substance containing an organic substance or a carbon-containing compound and a chlorine compound, wherein the substance is generated from a substance to be dried and / or is brought into contact with the substance to be dried.
The concentration of carbon monoxide contained in the gas discharged from the drying device is measured, and the concentration of the organic chlorine compound contained in the gas is controlled by controlling the drying device based on the concentration of the carbon monoxide. And drying method. 3. The drying method according to claim 2, wherein the concentration of the carbon monoxide is maintained at 100 ppm or less. 4. A method for drying a substance containing an organic substance or a carbon-containing compound and a chlorine compound, wherein the substance is generated from a substance to be dried and / or is brought into contact with the substance to be dried.
The concentration of carbon monoxide contained in the gas discharged from the drying device is measured, and the concentration of the organic chlorine compound contained in the gas is maintained while maintaining the concentration of the carbon monoxide at a predetermined value of 10 ppm or more and 100 ppm or less. A drying method characterized by controlling. 5. A method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound, comprising measuring a concentration of carbon monoxide contained in an atmosphere gas in contact with an object to be dried in a drying apparatus. A drying method, wherein the concentration of the carbon monoxide is used as an index of the concentration of an organic chlorine compound contained in the gas. 6. A method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound, comprising measuring a concentration of carbon monoxide contained in an atmosphere gas in contact with an object to be dried inside a drying apparatus. And a method of controlling the concentration of the carbon monoxide to control the concentration of the organic chlorine compound contained in the gas by controlling the drying device. 7. The drying method according to claim 6, wherein the concentration of the carbon monoxide is maintained at 100 ppm or less. 8. A method for drying a substance containing an organic substance, a carbon-containing compound, and a chlorine compound, comprising measuring a concentration of carbon monoxide contained in an atmosphere gas in contact with an object to be dried in a drying apparatus. And controlling the concentration of the organic chlorine compound contained in the gas while maintaining the concentration of the carbon monoxide at a predetermined value of not less than 10 ppm and not more than 100 ppm.