JP3340990B2 - Method and apparatus for measuring harmful substances in incinerated fly ash - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for collecting dust and fly ash from the entrance flue of a dust collector in a waste incinerator or the like, and measuring and digitizing the color using, for example, a colorimeter. The present invention relates to a method and an apparatus for measuring unburned carbon content in fly ash, and for easily calculating the concentration of harmful substances represented by harmful organic chlorine compounds such as dioxins. Further, the present invention relates to a method and an apparatus for easily measuring the concentration of harmful substances in fly ash necessary for efficient control of a combustion temperature, a primary air amount, a secondary air amount, etc. in a waste incinerator or the like. It is.

[0002]

2. Description of the Related Art Hitherto, it has been said that dioxins, which are one of harmful organic chlorine compounds contained in exhaust gas in waste incineration facilities, are highly correlated with dioxins in order to analyze them by a simple method. There is known a method of analyzing an indicator substance such as chlorobenzene and calculating a dioxin concentration from the analysis value. For example, in JP-A-11-37986 and JP-A-10-332666, after performing a concentration operation such as adsorption of chlorobenzenes and the like as an alternative index of dioxins to an adsorbent, a gas chromatograph is used. A method and apparatus for performing analysis is disclosed. In addition, for example, Japanese Patent Application Laid-Open
No. 14596 discloses a method of measuring a dioxin-based alternative indicator substance (chlorodibenzofuran-based compound) in exhaust gas using a laser multiphoton ionization mass spectrometer, and obtaining a dioxin concentration from the measured value. I have.

[0003]

In waste incinerators, the concentration of harmful organic chlorine compounds such as dioxins in exhaust gas is extremely low. The concentration of alternative indicator substances such as chlorobenzene is higher than that of dioxins, but the concentration is not high enough to be directly analyzed with a gas chromatograph, so the conventional method requires a process such as concentration, and the analysis takes time. There is a disadvantage that this is the case.
A method of controlling the combustion of the incinerator based on the measurement results has been considered, but the analysis takes a long time, so the combustion state at the time of measurement may differ from the combustion state of the incinerator when the exhaust gas was sampled. , Cannot perform effective control. Further, the equipment is complicated and large, so that the cost is high.

When the concentration of dioxins in exhaust gas containing a lot of fly ash (dust) is determined, the analysis is performed after the fly ash is removed, and therefore, the concentration of dioxins in the fly ash is not included. Since dioxins in exhaust gas often have a higher proportion in fly ash than in the gas phase, it is difficult to accurately calculate the concentration of dioxins in fly ash-rich exhaust gas using conventional methods. . Furthermore, there is a case where the correlation between the indicator substance and the concentration of dioxins is low, and there is a problem that the accuracy of the obtained dioxin concentration is low.

The present invention has been made in view of the above points, and an object of the present invention is to collect fly ash in flue gas in a waste incinerator or the like and measure its color using, for example, a colorimeter. -By digitizing, it is possible to measure the unburned carbon content in fly ash, etc., and to easily calculate the concentration of harmful substances represented by harmful organic chlorine compounds such as dioxins. It is an object of the present invention to provide a method and an apparatus for measuring harmful substances in incineration fly ash, which can effectively control a combustion temperature of a waste incinerator or the like, a primary air amount, a secondary air amount, and the like based on values. .

[0006]

Means for Solving the Problems To achieve the above object,
The method for measuring harmful substances in incineration fly ash of the present invention
Collect fly ash in exhaust gas discharged from waste incinerators, etc.
By measuring the color of fly ash, the concentration of harmful substances in fly ash
Is calculated. Toxic substances in fly ash
Harmful organic chlorination such as dioxins described later
Compounds and unburned carbon, organic halogenated substances (fluoride
Etc.), Cu compounds (CuCl, CuCl_Two, Cu_TwoO, C
uO, CuS, CuSO_FourEtc.), Fe compounds (FeC
1, FeCl_Two, FeCl_Three, FeO, Fe_TwoO_Three, Fe_Three
O_Four, FeS, FeSO_FourEtc.), Al compounds (AlCl_Three
Etc.), Sb compounds (SbCl_Five, SbCl_Three, Sb_TwoS
_ThreeEtc.), Sn compounds (SnCl_FourEtc.), Ni compounds (Ni
Cl_TwoEtc.), Zn compounds (ZnO, ZnCl_Two, ZnS
Etc.), Pb compounds (PbO, Pb_TwoO, PbSO _Four, Pb
S, PbCl_TwoEtc.), Bi compounds (BiCl_ThreeEtc.), Mn
Compound (MnS, MnCl_TwoEtc.), Mg compounds (MgC
l_TwoEtc.), Hg compounds (HgO, Hg_TwoO, HgCl, H
gCl_Two, HgS, Hg_TwoS, HgSO_Four, Hg_TwoSO
_FourEtc.), Cd compounds (CdO, CdCl_Two, CdS, Cd
SO_FourEtc.), Cr compounds (CrO, Cr_TwoO_Three, CrO_Three,
CrS, Cr_TwoS_Three, CrSO_FourEtc.).

Further, the method of the present invention calculates the unburned carbon content in fly ash by collecting fly ash in exhaust gas discharged from a waste incinerator or the like and measuring the color of the fly ash. It is characterized by: In addition, the method of the present invention is to collect fly ash in exhaust gas discharged from a waste incinerator or the like and measure the color of the fly ash to determine the concentration of harmful organic chlorine compounds such as dioxins in the fly ash. It is characterized in that it is calculated. In addition, the method of the present invention collects fly ash in exhaust gas discharged from a waste incinerator or the like and measures unburned carbon content in the fly ash, thereby reducing harmful substances such as dioxins in the fly ash. It is characterized in that the concentration of an organic chlorine compound is calculated. Further, the method of the present invention collects fly ash in exhaust gas discharged from a waste incinerator or the like, and extracts a Cu compound (eg, chloride, oxide) and an Fe compound (eg, chloride) contained in the fly ash. , Oxides) to calculate the concentration of harmful organic chlorine compounds such as dioxins in fly ash.

In the method of the present invention, it is preferable to measure and digitize the color of fly ash using a colorimeter or a spectrophotometer. A colorimeter is a device that measures color by a stimulus value direct reading method, and a spectrocolorimeter is a device that measures color by a spectral colorimetry method. The stimulus value direct reading method is a method of measuring a sample with three sensors having almost the same sensitivity as the spectral sensitivity corresponding to the human eye, and directly measuring three values called “tristimulus values”. On the other hand, the spectral colorimetry method is a method in which the light reflected from a sample is divided by a plurality of sensors, the reflectance is measured for each wavelength, and the microcomputer calculates integral values based on the data to obtain tristimulus values. This is a method of calculating the three values. Also,
As a method of measuring the unburned carbon content contained in fly ash, in addition to using the above stimulus value direct reading type colorimeter and spectral colorimeter,
There is a method of calculating the ash color tone from a quantified value by measuring the reflected light intensity of the ash under a constant light source with a semiconductor optical sensor. This method uses a semiconductor optical sensor to measure the reflected light intensity of the ash under a constant light source, and the quantified value of the ash color tone has a linear relationship with the value of unburned ash in the semilogarithmic graph. Therefore, the value of the unburned portion in the ash is calculated using this straight line (calibration curve). As another method for measuring unburned carbon, and a method of detecting the infrared as CO ₂ is combusted ash and high-frequency heating. In this method, a sample is placed in a crucible and burned in a high-frequency furnace,
The carbon content is detected by infrared absorption method as CO ₂ .

In the method of the present invention, the harmful organic chlorine compounds in the gas phase are transferred to fly ash by rapidly cooling the exhaust gas discharged from a waste incinerator or the like.
It is preferable to collect this fly ash. In the method of the present invention, the high-temperature exhaust gas is suctioned from the vicinity of the outlet of the waste incinerator and the like, and the fly ash is captured. After the compound has been transferred to fly ash, this fly ash can be used for measurement. Further, in these methods of the present invention,
Calculate the concentration of harmful substances (including harmful organic chlorine compounds such as dioxins) or unburned carbon as an index to control the combustion temperature, the amount of primary air, the amount of secondary air, etc. in waste incinerators etc. Is preferred. That is, the combustion temperature in a waste incinerator or the like, the primary air amount,
The secondary air amount and the like can be controlled.

It is thought that harmful organic compounds (including organic chlorine compounds) present in exhaust gas from waste incinerators and the like are mainly generated by unburned carbon in fly ash undergoing thermal decomposition and oxidative decomposition. I have. For example, the production process of dioxins
"Precursor generation" generated from precursors such as polychlorobenzene and polychlorophenol that are similar in structure to dioxins, and "De Novo" synthesis generated from structurally unrelated substances such as unburned carbon Is considered. And, in these reactions, C contained in fly ash
It is believed that metals such as u and Fe act as catalysts. Further, since HCl is present in the exhaust gas, it is considered that the metal in the exhaust gas is a compound such as chloride or oxide. Metal chlorides are known as organic chlorination (Deacon reaction) catalysts, especially CuCl
It is said that ₂ is highly reactive. Therefore, the concentration of dioxins can be easily analyzed by clarifying the correlation between unburned carbon in fly ash or a value indicating the unburned carbon (such as the color of fly ash) and the concentration of dioxins. Can be. Similarly, the concentration of dioxins can be easily analyzed by clarifying the correlation between the concentration of dioxins and Cu compounds and Fe compounds in fly ash.

The following three points have been clarified by the research so far. (1) In a waste incinerator, as the amount of unburned carbon in fly ash increases, the amount of dioxins generated increases, and the concentration of dioxins in exhaust gas increases.
(2) Fly ash, which contains a large amount of unburned carbon, has a strong black color.
When the color is measured, the parameter value indicating the brightness decreases. (3) There is a correlation between the parameter indicating the lightness of fly ash and the concentration of dioxins in fly ash. For example, as shown in FIG. 1, the lightness of fly ash has a substantially linear relationship with the concentration of dioxins in a semilogarithmic graph. Therefore, in the incinerator, fly ash collected by the dust collector or fly ash in the flue at the entrance of the dust collector is collected, and the color is measured using a colorimeter or a spectrophotometer. By doing so, it becomes possible to calculate the concentration of harmful organic chlorine compounds such as dioxins in only a few seconds. Therefore, when the combustion temperature of the incinerator, the amount of primary air, the amount of secondary air, and the like were controlled by the calculated concentration of the harmful organochlorine compound, the combustion state and color of the incinerator when fly ash was sampled were measured. Since the time difference of the combustion state at the time can be made very small, the combustion of the incinerator can be controlled efficiently.

The apparatus for measuring harmful substances in incineration fly ash according to the present invention includes a fly ash sampling means for sampling fly ash in exhaust gas discharged from a waste incinerator and the like, and a color measuring device for measuring the color of the collected fly ash. It is characterized by including a colorimeter for digitizing and a calculating means for calculating the concentration of harmful substances in fly ash from the color of fly ash digitized by the colorimeter (see FIGS. 2 to 5). ). Further, the apparatus of the present invention includes a fly ash sampling means for collecting fly ash in exhaust gas discharged from a waste incinerator and the like, a colorimeter for measuring and digitizing the color of the collected fly ash, and a colorimeter. Calculating means for calculating the unburned carbon content in the fly ash from the color of the fly ash quantified by the meter. Also,
The apparatus of the present invention includes a fly ash sampling means for collecting fly ash in exhaust gas discharged from a waste incinerator, a colorimeter for measuring and digitizing the color of the collected fly ash, and a colorimeter. It is characterized by including arithmetic means for calculating the concentration of harmful organochlorine compounds in fly ash from the digitized color of fly ash (see FIGS. 2 to 5).

Further, the apparatus of the present invention comprises a fly ash sampling means for collecting fly ash in exhaust gas discharged from a waste incinerator or the like, and a semiconductor optical sensor for measuring the reflected light intensity of the collected fly ash under a constant light source. An unburned carbon meter that calculates the unburned carbon content in the ash from the value obtained by quantifying the color of the ash by measuring the ash color, and harmful organic chlorine in the fly ash from the unburned carbon content measured by the unburned carbon meter Calculating means for calculating the compound concentration. Also, the device of the present invention
A waste incinerator fly ash sampling means for collecting fly ash in the exhaust gas discharged from, unburned carbon in the ash by detecting infrared flying ash collected as CO ₂ is combusted with high-frequency heating And a calculating means for calculating the concentration of harmful organic chlorine compounds in fly ash from the unburned carbon content measured by the unburned carbon measuring device.

In the apparatus of the present invention, the fly ash sampling means may be configured to collect dust ash in which chemicals such as slaked lime and activated carbon have not been blown at the inlet of the dust collector (see FIG. 2). . Further, in these apparatuses of the present invention, the fly ash sampling means can be configured to collect fly ash upstream of the position where chemicals such as slaked lime and activated carbon are blown into the dust collector inlet (see FIG. 3). ). Further, in these apparatuses of the present invention, fly ash sampling means is to collect fly ash after exhaust gas from a waste incinerator or the like is rapidly cooled and gaseous harmful organic chlorine compounds are transferred to fly ash. (See FIG. 4). Further, the apparatus of the present invention is connected near the outlet of a waste incinerator or the like,
Fly ash capturing means provided with exhaust gas suction means and cooling means for sucking high-temperature exhaust gas and capturing fly ash, quenching the captured fly ash and exhaust gas to transfer gas phase harmful organic chlorine compounds to fly ash Fly ash extraction means, fly ash sampling means for collecting fly ash taken out by fly ash extraction means, colorimeter for measuring and digitizing the color of the collected fly ash, and digitizing with a colorimeter It is characterized by including arithmetic means for calculating the concentration of harmful organic chlorine compounds in the fly ash from the color of the fly ash (see FIG. 5).

In these apparatuses of the present invention, a colorimeter or a spectrocolorimeter can be used as the colorimeter. Further, in these apparatuses of the present invention, the calculating means is connected to the control means for controlling at least one of the combustion temperature, the primary air amount and the secondary air amount in the waste incinerator or the like based on the value calculated by the calculating means. It is preferable to adopt the configuration described above (see FIGS. 2 to 5). Further, in these apparatuses of the present invention, it is preferable that the fly ash sampling means is a fly ash sampling / fine pulverizing means for finely pulverizing the collected fly ash (see FIGS. 2 to 5).

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below, but the present invention is not limited to the following embodiments and can be implemented with appropriate modifications. FIG. 2 shows an apparatus for implementing the method for measuring harmful substances in incineration fly ash according to the first embodiment of the present invention. As shown in FIG. 2, as an example, a waste incinerator 1
The exhaust gas discharged from the exhaust gas is cooled by preheating air in an air preheater 12 and then fly ash in the exhaust gas is removed by a dust collector 14 such as a bag filter or an electric dust collector. Treated in the catalytic denitration tower 18 and the chimney 20
Is discharged from In the waste incinerator 10, the primary air is blown from the primary air blower 22, and the secondary air is blown from the secondary air blower 24, and the combustion state is adjusted.
In addition, there is a configuration in which exhaust gas from the waste incinerator 10 is introduced into a boiler to recover heat, but is not shown in FIG.

The exhaust gas discharged from the waste incinerator 10 is such that the more unburned carbon content in the fly ash contained in the exhaust gas,
The amount of harmful organic chlorine compounds such as dioxins generated during the cooling process increases, and the concentration in exhaust gas increases. FIG.
In a facility where no chemical such as slaked lime or activated carbon is blown at the entrance of the dust collector 14 as shown in FIG.
Sample the incineration fly ash (dust ash) collected in
The color of the fly ash can be measured. The dust ash is sampled and pulverized in the fly ash sampling and pulverizing device 26. As means for finely pulverizing, for example, a ball mill or the like is used. The color of the fly ash which has been pulverized and made uniform is measured and digitized by the colorimeter 28. As the colorimeter 28, a stimulus value direct reading type colorimeter, a spectrocolorimeter, or the like is used. Instead of the colorimeter 28, an unburned carbon measuring device that calculates the unburned content in the ash from a value obtained by quantifying the color tone of the ash by measuring the reflected light intensity of the ash under a constant light source with a semiconductor optical sensor. , High frequency heating of ash and burning
It is also possible to use an unburned carbon measuring instrument for detecting carbon content by an infrared absorption method as O ₂ .

When the color of the fly ash is measured by the colorimeter 28, the fly ash containing more unburned carbon has a stronger black color, so that the parameter value indicating the lightness becomes lower. Since there is a correlation between the unburned carbon content in the fly ash and the dioxin concentration, the arithmetic unit 30 calculates the fly ash from the relationship between the parameter indicating the lightness of the fly ash calibrated in advance and the dioxin concentration in the fly ash. The concentration of harmful organic chlorine compounds such as dioxins in the water is calculated. The relationship between the lightness of fly ash and the concentration of dioxins is, for example, as shown in FIG. 1, in which the lightness of fly ash has a substantially linear relationship with the concentration of dioxins in a semilogarithmic graph, and is represented by a correlation equation. And, for example, the following equation. C _DXNs = 2.12 × 10 ¹⁷ · x ^-9.84 C _DXNs : Dioxin concentration [ng-TEQ / g] x: Lightness [-] The value of the harmful organic chlorine compound concentration calculated by the arithmetic unit 30 is sent to the control unit 32. The air blown by the primary air blower 22 and / or the secondary air blower 2
4 is controlled. In addition, it is also possible to control the amount of waste input to the waste incinerator 10 by the control device 32. As described above, the combustion temperature of the waste incinerator 10, the amount of primary air, the amount of secondary air, and the like are controlled based on the calculated concentration of harmful organic chlorine compounds such as dioxins, and the combustion state is managed. Although the present embodiment has a configuration in which the concentration of harmful organic chlorine compounds such as unburned carbon and dioxins in fly ash can be analyzed, it can be applied to the analysis of other harmful substances.

FIG. 3 shows an apparatus for implementing a method for measuring harmful substances in incineration fly ash according to a second embodiment of the present invention. This embodiment is a case of a facility in which a chemical such as slaked lime or activated carbon is blown into a flue 34 in front of (upstream of) the dust collector 14. In this case, as shown in FIG. 3, fly ash is sampled upstream of the position where the medicine is blown in the flue 34. In the present embodiment, a bag filter is used as the dust collector 14. Other configurations and operations are the same as those in the first embodiment.

FIG. 4 shows an apparatus for implementing a method for measuring harmful substances in incineration fly ash according to a third embodiment of the present invention. In the present embodiment, as shown in FIG. 4, the harmful organic chlorine compounds in the gas phase are transferred to fly ash by quenching the exhaust gas discharged from the waste incinerator 10 in the cooling tower 36. This fly ash is sampled. As described above, when there is a large amount of harmful organic chlorine compounds in the gas phase, the exhaust gas is rapidly cooled (not limited to the cooling tower), the harmful organic chlorine compounds are transferred to fly ash, and the color of the fly ash is measured. Is preferred. The quenching temperature is desirably 200 ° C. or less. FIG. 4 is an example.
This shows a case where incineration fly ash (dust collection ash) collected by the dust collector 14 is sampled at a facility where chemicals such as slaked lime and activated carbon are not blown at the entrance of the dust collector 14 such as a bag filter and an electric dust collector. However, the configuration of the present embodiment is a facility in which a chemical such as slaked lime or activated carbon is blown in at the entrance of the dust collector 14 such as a bag filter, and at a position upstream of a position where the chemical is blown at the entrance of the dust collector 14. It is also applicable when sampling fly ash. Other configurations and operations are the same as those in the first embodiment.

FIG. 5 shows an apparatus for implementing a method for measuring harmful substances in incineration fly ash according to a fourth embodiment of the present invention. As shown in FIG. 5, an exhaust gas sampling port 38 is provided near the furnace outlet of the waste incinerator 10, and the high-temperature exhaust gas is sucked from the sampling port 38 so that the exhaust gas is exhausted into an exhaust gas pipe 40.
And into the fly ash catcher 42 via 44 is an induction blower. The fly ash capturing device 42 is, for example, a container 46 having a double structure. A fly ash in the exhaust gas is captured by attaching a filter 48 such as a silica fiber filter to the inside of the container. Also, 2
The portion where fly ash is captured is rapidly cooled through cooling water or the like in the container 46 having a heavy structure. As described above, near the furnace outlet of the waste incinerator 10, high-temperature exhaust gas is sucked, and fly ash in the exhaust gas is captured by the filter 48 such as silica fiber filter paper. At this time, the harmful organic chlorine compound in the gas phase is transferred to the fly ash by quenching the portion that captures the fly ash. The quenching temperature is desirably 200 ° C. or less.

Further, in order to prevent a trace amount of harmful organochlorine compounds from adhering to the pipe wall of the exhaust gas pipe 40, the exhaust gas pipe 4 from the sampling port 38 at the furnace outlet to the fly ash capture device 42.
The inner wall is preferably made of glass, quartz, or the like.
Fly ash captured by the fly ash capturing device 42 is periodically taken out,
After sampling and finely pulverizing by the fly ash sampling / fine pulverizing device 26, the color is measured by the colorimeter 28, and the harmful organic chlorine compound concentration is calculated by the arithmetic device 30. The controller 32 controls the combustion temperature of the waste incinerator 10, the amount of primary air, the amount of secondary air, and the like based on this value. Other configurations and operations are the same as those in the first and third embodiments. In the configuration of the present embodiment, the fly ash collected by the dust collector 14 is sampled, and the color is measured by the colorimeter 28. It is also possible to appropriately combine a configuration in which fly ash is sampled and the color is measured by the colorimeter 28, and the like.

[0023]

As described above, the present invention has the following effects. (1) In a waste incinerator, etc., fly ash collected by a dust collector or fly ash in the flue at the entrance of the dust collector is collected.
By measuring the color using a colorimeter or the like, the concentration of harmful substances represented by harmful organic chlorine compounds such as dioxins can be calculated in a short time and easily. (2) Color measurement of fly ash with a colorimeter can be performed in just a few seconds, so the combustion state of the waste incinerator can be grasped with a slight time difference, and the combustion temperature of the waste incinerator, Control of the primary air amount, the secondary air amount, and the like can be performed effectively. (3) Because the colorimeter is compact, the device of the present invention is much smaller and simpler than the conventional one. For this reason, the apparatus cost can be reduced. (4) The unburned carbon content in fly ash can be easily measured, organic halogenated substances (fluorides, etc.), Cu compounds, Fe compounds, Al compounds, Sb compounds, Sn compounds, Ni compounds, Zn compounds, Pb It is possible to easily analyze compounds, Bi compounds, Mn compounds, Mg compounds, Hg compounds, Cd compounds, Cr compounds, and the like. Further, the combustion state of the incinerator can be controlled using these values.

[Brief description of the drawings]

FIG. 1 is a graph showing the relationship between the color measurement result of fly ash and the concentration of dioxins in fly ash.

FIG. 2 is a systematic schematic configuration diagram showing an apparatus for implementing a method for measuring harmful substances in incinerated fly ash according to the first embodiment of the present invention.

FIG. 3 is a systematic schematic configuration diagram showing an apparatus for implementing a method for measuring harmful substances in incineration fly ash according to a second embodiment of the present invention.

FIG. 4 is a systematic schematic configuration diagram showing an apparatus for implementing a method for measuring harmful substances in incineration fly ash according to a third embodiment of the present invention.

FIG. 5 is a systematic schematic configuration diagram showing an apparatus for implementing a method for measuring harmful substances in incineration fly ash according to a fourth embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Waste incinerator 12 Air preheater 14 Dust collector 16 Activated carbon adsorption tower 18 Catalytic denitration tower 20 Chimney 22 Primary air blower 24 Secondary air blower 26 Fly ash sampling / pulverizing device 28 Colorimeter 30 Operation device 32 Control Apparatus 34 Flue 36 Cooling tower 38 Sampling port 40 Exhaust gas pipe 42 Fly ash catcher 44 Induced blower 46 Double container 48 Filter

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Kenjiro Shindo 1-1, Kawasaki-cho, Akashi-shi, Hyogo Kawasaki Heavy Industries, Ltd. Inside the Akashi Plant (72) Inventor Shigenobu Okajima 1-1-1, Higashi-Kawasaki-cho, Chuo-ku, Kobe-shi No. 3 Kawasaki Heavy Industries, Ltd. Kobe Head Office (56) References JP-A-11-347515 (JP, A) JP-A-2001-208744 (JP, A) JP-A-10-332666 (JP, A) JP-A-11 -37986 (JP, A) (58) Field surveyed (Int. Cl. ⁷ , DB name) G01N 33/00-33/46

Claims (23)

(57) [Claims] Claims: 1. Incineration fly ash calculated by collecting fly ash in exhaust gas discharged from a waste incinerator or the like and measuring the color of the fly ash to calculate the concentration of harmful substances in the fly ash. How to measure harmful substances in ash. 2. Incineration by collecting fly ash in exhaust gas discharged from a waste incinerator or the like and measuring the color of the fly ash to calculate the unburned carbon content in the fly ash. Method for measuring harmful substances in fly ash. 3. A method for calculating the concentration of harmful organic chlorine compounds in fly ash by collecting fly ash in exhaust gas discharged from a waste incinerator or the like and measuring the color of the fly ash. Method for measuring harmful substances in incineration fly ash. 4. The concentration of harmful organic chlorine compounds in fly ash is calculated by collecting fly ash in exhaust gas discharged from a waste incinerator and measuring the unburned carbon content in the fly ash. A method for measuring harmful substances in incinerated fly ash . 5. A harmful substance whose concentration in fly ash is calculated by measuring the color of fly ash is an organic halogenated substance, Cu
The compound according to claim 1, wherein the compound is at least one of a compound, an Fe compound, an Al compound, a Sb compound, a Sn compound, a Ni compound, a Zn compound, a Pb compound, a Bi compound, a Mn compound, a Mg compound, a Hg compound, a Cd compound and a Cr compound. Of hazardous substances in incineration fly ash. To measure and quantify the color of the fly ash with either of the claims 6] colorimeter and spectral colorimeter claims 1 5
Method for measuring harmful substances in incineration fly ash as described. 7. A method for measuring the unburned carbon content of fly ash by using a value obtained by measuring and digitizing the color of fly ash by using a colorimeter or a spectrophotometer; method for calculating the quantified value the color tone of the ash by measuring the reflected light intensity in the semiconductor optical sensor, or ash which is a method for detecting the infrared as CO ₂ is combusted with high-frequency heating according to claim 4, wherein Method for measuring harmful substances in incineration fly ash. 8. By quenching the exhaust gas discharged from waste incinerators or the like, after transferring the toxic organic chlorine compounds in the gas phase in fly ash, claim 3, 4 for collecting the fly ash, 6
Or the method for measuring harmful substances in incinerated fly ash according to 7 . 9. A high-temperature exhaust gas is suctioned from the vicinity of an outlet of a waste incinerator or the like, and fly ash is captured, and the captured fly ash and the exhaust gas are rapidly cooled to convert gaseous harmful organic chlorine compounds into fly ash. after migration, the measurement method of the toxic substances according to claim 3 and 4, during the incineration fly ash 6 or 7, wherein the use of the fly ash to the measurement. 10. A combustion temperature in a waste incinerator or the like,
Method of measuring the toxic substances in incineration fly ash according to claim 1, 2 or 5, wherein calculating the pollutant concentration or unburned carbon for an index to control at least one of the following air amount and the amount of secondary air . 11. The combustion temperature in a waste incinerator or the like, 1
The harmful substance in incinerated fly ash according to claim 3 , 4 , 6, 7, 8, or 9 , wherein a harmful organic chlorine compound concentration is calculated as an index for controlling at least one of the secondary air amount and the secondary air amount. Measurement method. 12. A fly ash sampling means for collecting fly ash in exhaust gas discharged from a waste incinerator, etc., a colorimeter for measuring and digitizing the color of the collected fly ash, and a numerical value using a colorimeter. And a calculating means for calculating the concentration of harmful substances in the fly ash from the color of the fly ash. 13. A fly ash sampling means for sampling fly ash in exhaust gas discharged from a waste incinerator, etc .; a colorimeter for measuring and digitizing the color of the collected fly ash; A calculating means for calculating the unburned carbon content in the fly ash from the color of the fly ash. 14. A fly ash sampling means for sampling fly ash in exhaust gas discharged from a waste incinerator, etc .; a colorimeter for measuring and digitizing the color of the collected fly ash; And a calculating means for calculating the concentration of harmful organic chlorine compounds in the fly ash from the color of the fly ash. 15. A fly ash sampling means for sampling fly ash in exhaust gas discharged from a waste incinerator or the like, and an ashes by measuring a reflected light intensity of the collected fly ash under a constant light source with a semiconductor optical sensor. An unburned carbon measuring device that calculates the unburned carbon content in the ash from the value obtained by quantifying the color tone of the ash, and a calculation that calculates the concentration of harmful organic chlorine compounds in the fly ash from the unburned carbon content measured by the unburned carbon measuring device And a means for measuring harmful substances in incinerated fly ash. 16. Fly ash sampling means for collecting fly ash in exhaust gas discharged from a waste incinerator or the like, and high frequency heating of the collected fly ash for combustion and detection of CO _{2 by} infrared rays, An unburned carbon measuring device for measuring the unburned carbon content of the fuel cell, and a calculating means for calculating the concentration of harmful organic chlorine compounds in fly ash from the unburned carbon content measured by the unburned carbon measuring device. A measuring device for harmful substances in incinerated fly ash. 17. The incinerated fly ash according to any one of claims 12 to 16 , wherein the fly ash sampling means collects dust ash in which a chemical such as slaked lime or activated carbon has not been blown in at the dust collector inlet. Equipment for measuring harmful substances in air. 18. fly ash sampling means, incineration of any one of claims 12 to 16 drugs such as slaked lime and active carbon dust collector inlet is intended to collect the upstream side of the fly ash from the position blown A device for measuring harmful substances in fly ash. 19. fly ash sampling means is for sampling the fly ash after the toxic organic chlorine compounds of the flue gas is rapidly cooled vapor from waste incinerators or the like shifts to the fly ash claims 12 to 19. The apparatus for measuring harmful substances in incinerated fly ash according to any one of 18 . 20. A high-temperature exhaust gas, which is connected near an outlet of a waste incinerator or the like, is sucked while catching fly ash, and the captured fly ash and the exhaust gas are rapidly cooled to remove harmful organic chlorine compounds in a gas phase. Fly ash extracting means comprising fly ash catching means provided with exhaust gas suction means and cooling means for shifting to fly ash, fly ash sampling means for collecting fly ash taken out by fly ash removing means, and color of collected fly ash A colorimeter for measuring and digitizing the incineration, and arithmetic means for calculating the concentration of harmful organic chlorine compounds in the fly ash from the color of the fly ash digitized by the colorimeter. A measuring device for harmful substances in ash. 21. colorimeter, claim is either colorimeter and spectral colorimeter 12,13,14,17,18,1
21. The apparatus for measuring harmful substances in incinerated fly ash according to 9 or 20 . 22. calculating means, combustion temperature in the waste incinerator or the like by the calculated value calculating means, according to claim 12, connected to the control means for controlling at least one of the primary air quantity and the amount of secondary air 22. The apparatus for measuring harmful substances in incinerated fly ash according to any one of to 21 . 23. fly ash sampling means, the collected fly ash of harmful substances in incineration fly ash according to any one of claims 12 to 22 which is the fly ash sampling milling means adapted to milling measuring device.