JP3762458B2 - Denitration method in incinerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention can be applied to, for example, a sewage treatment facility having an anaerobic sludge digestion facility near a sewage sludge incineration facility, a sewage treatment facility having an anaerobic sludge digestion facility and a waste incineration facility in the vicinity, or anaerobic in the waste incineration facility. The present invention relates to a denitration method in an incinerator that is used when having a digestive sludge digestion facility.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, for example, in a garbage incinerator, a technique is known in which a gas containing methane is blown and NO _x generated from the incinerator is reduced using the reduction action of methane. However, in actual use, since the amount of methane used is small relative to the amount of gas in the incinerator, a part of the exhaust gas from the incinerator is reused for the purpose of mixing and stirring the exhaust gas with methane in the furnace. A method of circulating and mixing methane gas into the furnace is performed. The main composition of the recycle gas is N ₂ 50-60%, CO ₂ 12-15%, O ₂ 6-10%, H ₂ O 20-25%, and several tens to several hundred ppm of HCl and SOx is included. City gas (natural gas) is generally used as the supply of methane gas.
On the other hand, an anaerobic sludge digestion tank is one in which sludge generated (or precipitated) in a sewage treatment facility or the like is placed in the anaerobic atmosphere 2 to generate methane, and the composition of the generated gas is methane 57-62. _{%, CO 2 33~38%, H} 2 0~2%, and has a N ₂ 0~6%. Although in some cases the use of this gas as fuel for directly boiler, gas membrane separation into methane and CO _2, and raising the methane concentration in the gas to 77 to 85% (by raising the calories as fuel) as a fuel There is also a technique for increasing methane by utilizing the separated CO ₂ and returning it to the anaerobic sludge digester. In this case, 20 to 30% of methane is also contained in the CO ₂ excess side gas.
[0003]
[Problems to be solved by the invention]
However, for example, when methane gas is blown into a municipal waste incinerator to perform denitration, running cost increases when city gas is used as methane gas. In addition, methane gas is blown into the furnace and a part of the exhaust gas from the incinerator is often recirculated for stirring, but the recirculated gas contains 6 to 10% of O ₂ . In order to increase the denitration effect in a reducing atmosphere, the amount of methane used increases. Further, since the recirculated gas is corrosive, it is necessary to take measures against corrosion of a blower or a duct.
The present invention was devised in view of the above-mentioned problems, and was devised to solve this problem. The purpose of the process is that no other denitration device is required, and the city gas used during methane denitration can be reduced. An object of the present invention is to provide a denitration method in an incinerator that can reduce methane gas used for decontamination and eliminates the need for countermeasures against corrosion by using recirculated gas.
[0004]
[Means for Solving the Problems]
The invention of claim 1, after the gas generated at the anaerobic sludge digestion tank is separated into the Increment Tan excess side gas and CO ₂ -rich side gas Yi to a gas separation apparatus, burning the CO ₂ -rich side gas The basic configuration of the present invention is to blow the gas into the furnace and to use the methane excess side gas as fuel for a boiler or the like.
The invention of claim 2, after the gas generated at the anaerobic sludge digestion tank is separated into the Increment Tan excess side gas and CO ₂ -rich side gas Yi in gas separation apparatus, the CO ₂ -rich side gas Is blown into the incinerator for denitration in the furnace, and the methane excess side gas is used as fuel for boilers, etc., and this combustion exhaust gas is blown into the incinerator for agitation of CO ₂ excess side gas for in-furnace denitration. Is a basic configuration of the invention.
[0005]
The invention described in claim 1 is suitable when there is a large amount of gas generated in the anaerobic sludge digestion tank and denitration in the incinerator is possible with methane contained in the CO ₂ excess side gas separated by the gas separator. Yes, CO ₂ excess gas is used for stirring.
According to the second aspect of the present invention, the methane excess side gas obtained by separating the gas generated in the anaerobic sludge digester by the gas separator is used for denitration in the furnace, and the rest is used for boiler or the like (steam generated in the incinerator). It is suitable for use as a fuel for heating (including the following), and using this combustion exhaust gas for stirring in the furnace.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic diagram showing an incinerator denitration apparatus of a first example in which the method of the present invention is implemented.
The in-furnace in-furnace denitration apparatus 1 implements the method of the invention described in claim 1 of the present invention. The incinerator 2, the anaerobic sludge digestion tank 3, the desulfurization apparatus 6, the gas separation apparatus 8, and the piping 9. , 10 and 11 constitute the main part.
The incinerator 2 is equipped with a stoker 5 to form an incineration facility. The anaerobic sludge digestion tank 3 includes a desulfurization device 6 and a gas tank 7, and the gas A generated in the anaerobic sludge digestion tank 3 is desulfurized by the desulfurization device 6 and temporarily stored in the gas tank 7. Then, it is sent to the gas separation device 8 through the pipe 9.
The gas separation device 8 is composed of a gas separation membrane or the like, and has one inlet and two outlets. The pipe 9 connects the gas tank 7 and the inlet of the gas separation device 8. The pipe 10 connects one outlet of the gas separation device 8 and the incinerator 2. The pipe 11 connects the other outlet of the gas separation device 8 to a boiler or the like (not shown).
[0007]
In this example, the gas A generated in the anaerobic sludge digestion tank 3 is desulfurized by the desulfurization device 6 and temporarily stored in the gas tank 7, and then passes through the pipe 9 and by the gas separation device 8 to the CO ₂ excess side. The gas B and the methane excess side gas C are separated, and the CO ₂ excess side gas B is used for in-furnace denitration, and blown into the furnace of the incinerator 2 through the pipe 10. The methane excess side gas C is supplied to a boiler or the like (not shown) through the pipe 11 and used as fuel.
[0008]
Figure 2 is a schematic diagram showing an incinerator in denitration apparatus of the second example was carried out the method of the present invention.
The in-furnace denitration apparatus 1 carries out the method of the invention according to claim 2 of the present invention. The incinerator 2, the anaerobic sludge digester 3, the gas separator 8, the boiler 12, the pipe 9, 10, 11 and 13 constitute the main part.
The pipe 11 connects the other outlet of the gas separator 8 and the boiler 12 or the like. The pipe 13 connects the boiler 12 or the like and the middle of the pipe 10. Others are the same as the previous example.
In this example, the gas A generated in the anaerobic sludge digestion tank 3 is desulfurized by the desulfurization device 6 and temporarily stored in the gas tank 7, and then passes through the pipe 9 and by the gas separation device 8 to the CO ₂ excess side. The gas B and the methane excess side gas C are separated, and the CO ₂ excess side gas B is used for in-furnace denitration, and blown into the furnace of the incinerator 2 through the pipe 10. The methane excess side gas C is supplied to the boiler 12 through the pipe 11 and burned as fuel, and then the exhaust gas D is sent to the pipe 10 through the pipe 13, and the CO ₂ excess side gas B is mixed and incinerated. It is blown into the furnace 2.
[0009]
Figure 3 is a schematic diagram showing an incinerator in denitration apparatus of the third example was carried out the method of the present invention.
The in-furnace denitration apparatus 1 performs the method of the invention according to claim 2 of the present invention, as in the previous example. The incinerator 2, the anaerobic sludge digester 3, and the gas separation apparatus 8. The main part is composed of the boiler 12 and the like and the pipes 9, 10, 11, and 14.
The pipe 14 connects the boiler 12 and the incinerator 2 directly. Others are the same as the previous example.
In this example, the gas A generated in the anaerobic sludge digestion tank 3 is desulfurized by the desulfurization device 6 and temporarily stored in the gas tank 7, and then passes through the pipe 9 and by the gas separation device 8 to the CO ₂ excess side. The gas B and the methane excess side gas C are separated, and the CO ₂ excess side gas B is used for in-furnace denitration, and blown into the furnace of the incinerator 2 through the pipe 10. After the methane excess gas C is supplied to the boiler 12 and the like through the pipe 11 and burned as fuel, the exhaust gas D is blown into the furnace of the incinerator 2 through the pipe 14 alone.
[0010]
FIG. 4 is a schematic diagram showing a reference example of the in-furnace denitration apparatus using the gas A generated in the anaerobic sludge digestion tank.
The in-furnace denitration apparatus 1 includes an incinerator 2, an anaerobic sludge digestion tank 3, a boiler 12 and the like, and pipes 9, 10, 11, and 13.
The pipe 9 connects the gas tank 7 and the branch point 15. The pipe 10 connects the branch point 15 and the incinerator 2. The pipe 11 connects the branch point 15 and the boiler 12 or the like. The pipe 13 connects the boiler 12 or the like and the middle of the pipe 10.
In this reference example, the gas A generated in the anaerobic sludge digester 3 is desulfurized by the desulfurization device 6 and temporarily stored in the gas tank 7, and then the gas E and gas F at the branch point 15 through the pipe 9. And one gas E is used for in-furnace denitration and blown into the furnace of the incinerator 2 through the pipe 10. The other gas F is supplied to the boiler 12 or the like 12 through the pipe 11 and burned as fuel, and then the exhaust gas D is sent to the pipe 10 through the pipe 13 and mixed with the one gas E to be in the incinerator 2. It is blown into the furnace.
[0011]
FIG. 5 is a schematic view showing another reference example of the in-furnace denitration apparatus using the gas A generated in the anaerobic sludge digestion tank.
The incinerator denitration apparatus 1 includes an incinerator 2, an anaerobic sludge digester 3, a boiler 12, and pipes 9, 10, 11, and 14.
The pipe 14 connects the boiler 12 and the incinerator 2 directly.
In this example, the gas A generated in the anaerobic sludge digester 3 is desulfurized by the desulfurization device 6 and temporarily stored in the gas tank 7, and then converted into gas E and gas F at the branching point 15 via the pipe 9. Divided into two, one gas F is used for in-furnace denitration, and blown into the furnace of the incinerator 2 through the pipe 10. The other gas F is supplied to the boiler 12 or the like through the pipe 11 and burned as fuel, and then the exhaust gas D is blown into the furnace of the incinerator 2 through the pipe 14 alone.
[0012]
FIG. 6 is a schematic view showing still another reference example of the denitration apparatus in the combustion furnace using the gas A generated in the anaerobic sludge digestion tank.
The incinerator denitration apparatus 1 includes an incinerator 2, an anaerobic sludge digester 3, a boiler 12, a city gas source 16, and pipes 17, 18, and 19.
The city gas source 16 supplies city gas (natural gas) G. The pipe 17 connects the city gas source 16 and the incinerator 2. The pipe 18 connects the gas tank 7 and the boiler 12 or the like. The pipe 19 connects the boiler 12 or the like and the middle of the pipe 17.
In this example, the city gas G from the city gas source 16 is blown into the furnace of the incinerator 2 through the pipe 17. The gas A generated in the anaerobic sludge digestion tank 3 is desulfurized by the desulfurization device 6 and temporarily stored in the gas tank 7, and then supplied to the boiler 12 or the like through the pipe 18 and burned as fuel. The exhaust gas D is sent to the pipe 17 through the pipe 19, mixed with the city gas G from the city gas source 16, and blown into the furnace of the incinerator 2.
[0013]
FIG. 7 is a schematic diagram showing a fourth reference example of the in-furnace denitration apparatus using the gas A generated in the anaerobic sludge digestion tank.
The incinerator denitration apparatus 1 includes an incinerator 2, an anaerobic sludge digester 3, a boiler 12, a city gas source 16, and pipes 17, 18, and 20.
The pipe 20 directly connects the boiler 12 and the incinerator 2.
In this example, the city gas G from the city gas source 16 is blown into the furnace of the incinerator 2 through the pipe 17. After the gas A generated in the anaerobic sludge digester 3 is denitrated by the desulfurization device 6 and temporarily stored in the gas tank 7, it is supplied to the boiler 12 or the like via the pipe 18 and burned as fuel. The exhaust gas D is blown into the furnace of the incinerator 2 alone through the pipe 20.
[0014]
【The invention's effect】
As described above, according to the present invention, the following excellent effects can be obtained.
(1) Since the gas generated in the anaerobic sludge digester is blown into the incinerator and used for denitration, other denitration equipment becomes unnecessary and city gas used for methane denitration can be reduced. .
(2) Since the gas generated in the anaerobic sludge digester is blown into the incinerator and used for denitration, no recirculation gas is required and methane gas used for denitration can be reduced compared to the conventional method. Therefore, it is not necessary to reduce running costs and to take countermeasures against corrosion by using recirculated gas.
[Brief description of the drawings]
First example schematic diagram illustrating incinerator in denitration apparatus in which the method was performed in the present invention; FIG.
Second example schematic diagram illustrating incinerator in denitration apparatus in which the method was performed in the present invention; FIG.
Third example schematic diagram illustrating incinerator in denitration apparatus in which the method was performed in the present invention; FIG.
FIG. 4 is a schematic view showing a reference example of a denitration apparatus in an incinerator using gas A generated in an anaerobic sludge digestion tank .
FIG. 5 is a schematic diagram showing another reference example of a denitration apparatus in an incinerator using gas A generated in an anaerobic sludge digestion tank.
FIG. 6 is a schematic view showing still another reference example of the in-furnace denitration apparatus using the gas A generated in the anaerobic sludge digestion tank .
FIG. 7 is a schematic diagram showing a fourth reference example of a denitration apparatus in an incinerator using gas A generated in an anaerobic sludge digester.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... In-furnace denitration apparatus, 2 ... Incinerator, 3 ... Anaerobic sludge digester, 4, 9, 10, 11, 13, 14, 17, 18, 19, 20 ... Piping, 5 ... Stoker, 6 ... Desulfurization device, 7 ... gas tank, 8 ... gas separation apparatus, 12 ... boiler, 15 ... branch point, 16 ... city gas source, A, E, F ... gas, B ... CO ₂ -rich side gas, C ... methane-rich side gas , D ... exhaust gas, G ... city gas.

Claims (2)

After the gas generated at the anaerobic sludge nitrification tank is separated into the Increment Tan excess side gas and CO ₂ -rich side gas Yi to a gas separation apparatus, the CO ₂ -rich side gas with blown into the incinerator, methane A denitration method in an incinerator characterized by using excess gas as fuel for a boiler or the like. After the gas generated at the anaerobic sludge nitrification tank is separated into the Increment Tan excess side gas and CO ₂ -rich side gas Yi in gas separation apparatus, the incinerator of the CO ₂ -rich side gas for the furnace denitration Incinerator denitration method characterized in that the methane excess side gas is used as fuel for boilers and the like, and the combustion exhaust gas is blown into the incinerator for agitation of CO ₂ excess side gas for in-furnace denitration .

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