JP2000130742A - Combustion method, combustion system and cement manufacturing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the generating amount of NOX by a method wherein ammonium-containing gas, generated from waste, containing ammonium state nitrogen, is introduced into a site having a specified gas temperature or higher. SOLUTION: Material powder, supplied to the uppermost part of a suspension heater 1, descends gradually. The material, preheated and decomposed, enters into a rotary kiln 2. Then, the material is moved toward an outlet port while being rolled. A kiln burner 6 is installed at the side of the outlet port and air for baking is also supplied. Clinker discharged out of the rotary kiln 2 enters into a clinker cooler 5 and is cooled. Then, mixture fuel is supplied from a mixture fuel manufacturing means into the kiln burner 6 as shown by an arrow sign A in a diagram to send the same from here into the kiln burner and burn the same. In this case, gas contained in waste containing ammonium-state nitrogen is generated. The gas is supplied to a site (a preliminary burning furnace 3, a mixing chamber 4 or the bottom part of the kiln, for example), having a gas temperature of 700 deg.C or higher, as shown by the arrow sign B in the diagram.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method combustion, combustion systems and cement production systems, in particular, the combustion method can reduce the generation amount of nitrogen oxides (NO _X) upon combustion,
The present invention relates to a combustion system and a cement production system.

[0002]

2. Description of the Related Art In a cement production process (firing process), fossil fuels such as coal, heavy oil, and oil coke, and other fuels utilizing wastes are used. The fossil fuel contains nitrogen. Also, in the case of fuel using waste, if the waste contains nitrogen, the nitrogen is naturally contained.

Meanwhile, nitrogen content contained in the fuel is oxidized in the combustion process, the NO _X. The NO _X is pointed out that one of the pollution source (air pollution), NO _X
There is a strong demand for suppression of the generation amount. NO _X generation amount of suppression is pushed strongly in the cement industry.

[0004] For example, in a cement firing process, low N
It has been considered to suppress the generation of NO _X by adopting an O _X burner or kiln operation. However, in recent cement burning, mixing ratio of the fuel, by a variety of such varieties, often NO _X is not stable, in order to protect the emission control of the NO _X at present of the NO _X reduction operation, efficient Combustion is difficult, and there is a limit to the firing of cement. Then, in the future that would regulation of the NO _X emissions becomes stricter, the limit becomes more severe.

[0005] In the Japanese Patent 10-194800 discloses a calcined cement raw material by a preheater in NO _X reduction method in the exhaust gas generated when fired in a dry cement kiln, from the bottom of the preheater N of exhaust gas of cement kiln that introduces organic sludge containing ammonia up to the kiln bottom of the dry cement kiln
O _X reduction methods have been proposed.

[0006] In this proposal, since an organic sludge is a waste product, preferable in terms of cost, and, 4NH ₃
+ O ₂ → 4NH ₂ + 2H ₂ O, NH ₂ + NO → N ₂ + H
_As can be seen from the reaction formula of ₂ O, NO _X is reduced, indicating that the generation of NO _X is suppressed. However, according to the inventor's study, only introduced during the organic sludge from the bottom of the preheater to the kiln inlet part of the dry cement kiln, there is a limit to the suppression of the NO _X generation, the generated NO _X It has been found that it is necessary not only to reduce but also to suppress the amount of NO _X generated itself.

Accordingly, a first object of the present invention is to provide is to provide a technique capable of reducing the generation amount of the NO _X upon combustion. Second problem to be solved by the present invention
Challenge is NO _X suppressing cost to provide inexpensive technology. A third problem to be solved by the present invention is that N
To spread the bad smell when O _X suppression is to provide a technique no.

[0008]

The first to third objects are to supply fuel from a fuel supply port and supply ammonia-containing nitrogen-containing waste from a fuel supply port and / or the vicinity thereof, and to perform combustion. And a step of introducing an ammonia-containing gas generated from the ammonia-nitrogen-containing waste in a stage before burning the ammonia-nitrogen-containing waste into a portion having a gas temperature of 700 ° C. or higher by the combustion. It is solved by a combustion method characterized by the following.

A step of mixing ammonia-containing waste with fuel to produce a mixed fuel; a step of supplying the mixed fuel from a fuel supply port and / or the vicinity thereof and burning the mixed fuel; And / or introducing the mixed fuel and / or the ammonia-containing gas generated from the ammonia nitrogen-containing waste in a stage before burning the mixed fuel into a portion having a gas temperature of 700 ° C. or more by the combustion. And a combustion method.

In addition, fuel is supplied from a fuel supply port, and
Means for supplying and burning ammonia-nitrogen-containing waste from a fuel supply port and / or the vicinity thereof; and supplying ammonia-containing gas generated from ammonia-nitrogen-containing waste in a stage before burning the ammonia-nitrogen-containing waste. ,
Means for introducing a gas temperature of 700 ° C. or more by the combustion.

A means for mixing the ammonia-nitrogen-containing waste with the fuel to produce a mixed fuel; a means for supplying the mixed fuel from a fuel supply port and / or the vicinity thereof and burning the mixed fuel; And / or introducing the mixed fuel and / or the ammonia-containing gas generated from the ammonia nitrogen-containing waste in a stage before burning the mixed fuel into a portion having a gas temperature of 700 ° C. or more by the combustion. The combustion system.

[0012] In particular, the present invention relates to a combustion method in the production of cement, wherein fuel is supplied from a kiln burner and / or a calciner burner in a cement firing step, and ammonia-containing nitrogen-containing waste is discharged in a cement firing step. And / or a step of supplying and burning from a calciner burner and / or the vicinity thereof, and an ammonia-containing gas generated from the ammonia-nitrogen-containing waste in a stage before burning the ammonia-nitrogen-containing waste, by the combustion. Introducing a gas to a site where the gas temperature is 700 ° C. or higher.

[0013] Further, there is provided a combustion method in the production of cement, wherein a waste containing ammonia nitrogen is mixed with a fuel,
A step of producing a mixed fuel, a step of supplying the mixed fuel from a kiln burner and / or a calciner burner and / or its vicinity in a cement firing step, and burning, and a step of producing the mixed fuel and / or Introducing a mixed fuel and / or an ammonia-containing gas generated from the ammonia-nitrogen-containing waste in a stage before burning the mixed fuel into a portion where the gas temperature in the cement firing step is 700 ° C. or higher. It is solved by the characteristic combustion method.

[0014] In the cement production system, fuel is supplied from a kiln burner and / or a calciner burner in a cement burning step, and ammonia-containing nitrogen-containing waste is supplied from a kiln burner and / or a temporary burner in a cement burning step. A means for supplying and burning from the furnace burner and / or the vicinity thereof, and an ammonia-containing gas generated from the ammonia-nitrogen-containing waste in a stage before burning the ammonia-nitrogen-containing waste, the gas temperature of which is reduced by the combustion. 70
And a means for introducing to a site of 0 ° C. or higher.

[0015] A cement production system comprising: means for mixing ammonia-nitrogen-containing waste and fuel to produce a mixed fuel; and a kiln burner and / or a calciner burner for the cement firing step. And / or means for supplying and burning from the vicinity thereof, and ammonia produced from the mixed fuel and / or ammonia-containing nitrogen-containing waste in a step of producing the mixed fuel and / or in a stage before burning the mixed fuel. Means for introducing the contained gas to a site where the gas temperature in the cement firing step is 700 ° C. or higher.

That is, since the waste containing ammonia nitrogen is supplied to the combustion system, 4NH ₃ + 4NO + O ₂ → 4N ₂ + 6H ₂ O 8NH ₃ + 6NO ₂ → 7N ₂ + 12H ₂ O NO _X is reduced by the NH ₃ generated from the ammonia nitrogen-containing waste, NO _X
Is reduced.

In particular, the present invention relates to Japanese Patent Application Laid-Open No. 10-19480.
Unlike proposals 0 JP, the fuel, or it is so arranged to supply mixed in the fuel, NO _X generation itself is suppressed, the gas further comprises ammonia gas temperature 700
By introducing it into a site at a temperature of not less than ° C., the generated NO _X can be reduced at the same time, and the NO _X generation amount can be further reduced. In addition, in the stage before burning the ammonia nitrogen-containing waste, various operations such as pulverization, stirring, heating and other decompression are added as necessary. For this reason, at this time, an odor due to, for example, methyl mercaptan or acetaldehyde contained in the waste containing ammonia nitrogen is inevitably generated. When these gases are released into the atmosphere, they cause odor pollution. That is, a bad smell may be scattered around. However, in the present invention, the generated gas, that is, the step of producing the mixed fuel, the stage before burning the ammonia nitrogen-containing waste or the mixed fuel (for example, the drying step of the ammonia nitrogen-containing waste or the mixed fuel, The ammonia-containing gas generated from the mixed fuel or the ammonia-nitrogen-containing waste in the storage step, the transportation step, and the like is converted into a combustion system, in particular, a gas temperature of 700 ° C. or more (particularly, 850) by combustion.
℃ or more. The upper limit can be any number of times. ), The odor source substance is decomposed. Therefore, there is no possibility that the odor is scattered around.

Further, at this time, the introduced gas contains N
Since H ₃ is included, the amount of generated NO _X is also reduced by this NH ₃ . Then, in the present invention, as described above, NH ₃ or the like is supplied to a plurality of locations, that is, the gas temperature is increased to 700 ° C. or more by burning the fuel supply port (a kiln burner or a calciner burner) and / or its vicinity. Since the reaction is supplied to a plurality of sites, the above-described reaction proceeds over a wide area, and the amount of generated NO _X is further reduced.

Further, the waste containing ammonia nitrogen is generally used as a fuel source having a calorific value of 3000 kcal / kg or more, so that fuel costs can be reduced and resource energy can be saved. In the present invention, sewage sludge is particularly used as the waste containing ammonia nitrogen. Alternatively, night soil is used. These are occurring in large quantities, urgent measures are required as social and environmental problems, and are extremely preferable from the viewpoint of effective use.

The fuel which is burned together with the waste containing ammonia nitrogen is usually coal, petroleum, oil coke or the like. Of course, it is not limited to this. The usage ratio of the ammonia nitrogen-containing waste and the fuel is such that the ammonia nitrogen waste is a solid content of 2 to 25 parts by weight (particularly 7 parts by weight or more and 20 parts by weight or less) with respect to 100 parts by weight of the fuel. It is preferred that That is, if in terms of the NO _X reduction, ammonia nitrogen-containing wastes often better. However, the calories burned by ammonia nitrogen-containing wastes are low as compared with so-called fuels. Therefore,
The amount cannot be blindly increased. As a result of the experiment, it was preferable that the amount of the waste containing ammonia nitrogen be 25 parts by weight, particularly 20 parts by weight or less based on 100 parts by weight of the fuel. From the viewpoint of combustion calories, it is preferable that the amount of ammonia nitrogen-containing waste is small. However, if the amount is too small, it is difficult to solve the first problem (reducing the amount of NO _X generated during combustion). Therefore, 2 parts by weight of ammonia nitrogen-containing waste per 100 parts by weight of fuel,
In particular, it was preferred to be 7 parts by weight or more.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION The combustion method of the present invention comprises the steps of supplying fuel from a fuel supply port, supplying ammonia-containing nitrogen-containing waste from the fuel supply port and / or the vicinity thereof, and burning it. The ammonia-containing gas generated from the ammonia-nitrogen-containing waste at a stage before the combustion of the nitrogen-containing waste is reduced to a gas temperature of 7 by the combustion.
Introducing into a site at a temperature of 00 ° C. or higher (in particular, 850 ° C. or higher).

A step of mixing ammonia-containing waste and fuel to produce a mixed fuel; a step of supplying the mixed fuel from a fuel supply port and / or the vicinity thereof and burning it; The ammonia-containing gas generated from the mixed fuel and / or the ammonia-nitrogen-containing waste in the step of manufacturing the mixed fuel and / or in the stage before burning the mixed fuel is subjected to the combustion at a gas temperature of 700 ° C. or more (particularly, 850 ° C.). (° C. or higher).

In particular, the present invention relates to a combustion method in the production of cement, wherein fuel is supplied from a kiln burner and / or a calciner burner in a cement firing step, and an ammonia nitrogen-containing waste is supplied to a kiln burner and a kiln burner in a cement firing step. And / or a step of supplying and burning from a calciner burner and / or the vicinity thereof, and an ammonia-containing gas generated from the ammonia-nitrogen-containing waste in a stage before burning the ammonia-nitrogen-containing waste, by the combustion. Introducing the gas to a site where the gas temperature is 700 ° C. or higher (especially 850 ° C. or higher).

[0024] Further, there is provided a combustion method in the production of cement, wherein a waste containing ammonia nitrogen is mixed with a fuel,
A step of producing a mixed fuel, a step of supplying the mixed fuel from a kiln burner and / or a calciner burner and / or its vicinity in a cement firing step, and burning, and a step of producing the mixed fuel and / or The ammonia-containing gas generated from the mixed fuel and / or the ammonia-nitrogen-containing waste in a stage before burning the mixed fuel is introduced into a portion where the gas temperature in the cement firing step is 700 ° C. or more (particularly 850 ° C. or more). And

[0025] The combustion system of the present invention comprises a means for supplying fuel from a fuel supply port and supplying and burning ammonia-nitrogen-containing waste from the fuel supply port and / or the vicinity thereof and burning the same. The ammonia-containing gas generated from the ammonia-nitrogen-containing waste in the stage before the burning of the substance is converted to a gas temperature of 700 by the combustion.
And a means for introducing into a site at a temperature of at least 850 ° C.

Means for mixing the ammonia-nitrogen-containing waste and fuel to produce a mixed fuel; means for supplying the mixed fuel from a fuel supply port and / or the vicinity thereof to burn it; The ammonia-containing gas generated from the mixed fuel and / or the ammonia-nitrogen-containing waste in the step of manufacturing the mixed fuel and / or in the stage before burning the mixed fuel is subjected to the combustion at a gas temperature of 700 ° C. or more (particularly, 850 ° C.). (° C. or more).

In the cement production system of the present invention, fuel is supplied from a kiln burner and / or a calciner burner in a cement burning step, and an ammonia nitrogen-containing waste is supplied from a kiln burner and / or calcined in a cement burning step. A means for supplying and burning from the furnace burner and / or the vicinity thereof, and an ammonia-containing gas generated from the ammonia-nitrogen-containing waste at a stage before burning the ammonia-nitrogen-containing waste at a gas temperature of 700 by the combustion.
And a means for introducing into a site at a temperature of at least 850 ° C.

[0028] Further, means for mixing ammonia-containing waste and fuel to produce a mixed fuel, and supplying the mixed fuel from a kiln burner and / or a calciner burner in a cement firing step and / or its vicinity. Means for burning the mixed fuel and / or the ammonia-containing gas generated from the ammonia-nitrogen-containing waste in the step of producing the mixed fuel and / or the step of burning the mixed fuel, in a cement firing step. Gas temperature at 70
Means for introducing the compound to a site at 0 ° C. or higher (particularly, 850 ° C. or higher).

As the waste containing ammonia nitrogen, sewage sludge and night soil are used in particular. It is to be noted that a pulverized product may be used, or a mixture and a pulverization with fuel may be used. Fuels combusted with ammonia nitrogen-containing waste are usually coal, petroleum, oil coke, and the like. The usage ratio of the ammonia nitrogen-containing waste and the fuel is 2 to 100 parts by weight of the fuel.
25 parts by weight (especially 7 parts by weight or more, 20 parts by weight or less)
It is.

Hereinafter, further description will be given. FIG. 1 is a schematic diagram of a cement production system. In FIG. 1, reference numeral 1 denotes a suspension preheater. 2 is a rotary kiln. 3 is a calciner. 4 is a mixing chamber. 5 is a clinker cooler. 6 is a kiln burner.

In the above cement production system, the firing step, which is the center of the cement production step, includes the steps in the suspension preheater 1 and the rotary kiln 2. In these steps, a raw material powder such as limestone or clay is changed into a cement clinker one step before cement by a decarboxylation reaction and a firing reaction. The raw material powder supplied to the uppermost part of the suspension preheater 1 gradually goes down. At this time, it is preheated by the heat from the calciner burner (which may not be present) provided below the suspension preheater 1 and the rotary kiln 2 and the subsequent clinker cooler 5, and is a main component of limestone. Decomposes calcium carbonate into calcium oxide and carbon dioxide. At this time, the gas temperature reaches 850 ° C. The gas temperature near the bottom of the rotary kiln 2 is about 1000 ° C., and the gas temperature at the outlet of the uppermost cyclone becomes about 400 ° C. while gradually exchanging heat with the raw material in the suspension preheater 1.

The preheated and decomposed raw material is a rotary kiln 2
to go into. Then, it moves while rolling toward the exit. A kiln burner 6 using pulverized coal, heavy oil, or the like as a fuel is installed at the outlet side (rotary kiln opening side), and air for firing is also supplied. In this rotary kiln 2, the temperature gradually increases, and at the highest burning point, 14
It will be about 50 ° C.

The clinker discharged from the rotary kiln 2 enters the clinker cooler 5 and is cooled. Kiln exhaust gas is recovered by heat in a waste heat boiler, and is further discharged into the atmosphere after being removed by a dust collector. On the premises of this cement manufacturing plant, waste containing ammonia nitrogen (sewage sludge,
Alternatively, a mixed fuel producing means (not shown) for mixing and pulverizing a fuel (coal) and a solid cake obtained by dehydrating human waste is provided. That is, the solid cake body made of sewage sludge or human waste and coal are mixed and pulverized by the mixed fuel production means so as to have a predetermined particle size.

Then, the mixed fuel is supplied from the mixed fuel producing means to the kiln burner 6, as shown by an arrow A, and is blown into the inside to burn it. In the above-mentioned mixed fuel production means, processing such as mixing, stirring, and pulverization is performed. At this time, gas such as ammonia and mercaptan contained in the waste containing ammonia nitrogen is inevitably generated. This gas has a gas temperature of 700 ° C via a pipe
As shown by the arrow B, the above parts (for example, the calciner 3, the mixing chamber 4, or the kiln bottom of the kiln) are supplied.

Next, a combustion test was conducted to determine the N
It was studied the O _X concentration, and the results are shown in Table 1,2. Table 1 Sewage sludge / coal (%) 0 10 20 mixed-generation gas supply No Yes No Yes No NO _X concentration (O ₂ 10% conversion) of the grinding ppm 300 190 220 120 150 outside invention The present invention invention outside the present invention outside invention table 2 human waste / coal (%) 0 10 20 generating gas supply No Yes No Yes No concentration of NO _X in the mixed and pulverized (O ₂ 10% conversion) ppm 300 150 200 100 120 outside invention the present invention invention outside the Invention Out of the Invention As can be seen from the results, in the present invention, the generation amount of NO _X can be greatly reduced.

Moreover, since the material used for reducing NO _X is waste containing ammonia nitrogen using sewage sludge and night soil as raw materials, the cost of reducing NO _X generation is low. Further, in the present invention, no malodor caused by malodorous substances generated from the waste containing ammonia nitrogen was not recognized. On the other hand, when the processing such as mixing, stirring, and pulverization is performed by the mixed fuel production means, the odor-causing substances contained in the ammonia nitrogen-containing waste are released,
If this were released into the atmosphere, the stench would be scattered.

However, when the gas is supplied to a portion having a gas temperature of 700 ° C. or more (for example, the calciner 3, the mixing chamber 4, or the kiln butt portion of the kiln) as in the present invention, it is decomposed and has a bad odor. Disappears. Moreover, Table 1,
As can be seen from Table 2, which is lower concentration of NO _X in the combustion exhaust gas. And, when the present invention is used for cement production, all of the ammonia nitrogen-containing waste is consumed as fuel and raw material, and does not generate unnecessary products.

[0038]

Generation amount of the NO _X, according to the present invention can be reduced greatly. In addition, since the material used for reducing NO _X is waste containing ammonia nitrogen using sewage sludge and human waste as raw materials, the cost of reducing NO _X generation is low. Further, the odor caused by the waste containing ammonia nitrogen is eliminated. In addition, the amount of generated NO _X can be further reduced.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of a cement production system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Suspension preheater 2 Rotary kiln 3 Calcination furnace 4 Mixing chamber 5 Clinker cooler 6 Kiln burner

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3K068 AA11 AB01 AB21 BA01 EA01 EA03 4D004 AA50 BA03 CA28 CB09 CB34 DA02 DA03 DA06 DA10 4D059 AA01 AA03 BB01 BB14 DB05 EB10 4G012 KA06 KC09

Claims (12)

[Claims] 1. A step of supplying fuel from a fuel supply port and supplying and burning ammonia-nitrogen-containing waste from a fuel supply port and / or its vicinity, and burning the ammonia-nitrogen-containing waste. Introducing the ammonia-containing gas generated from the ammonia-nitrogen-containing waste in the step (b) to a portion having a gas temperature of 700 ° C. or more by the combustion. 2. A step of mixing ammonia-nitrogen-containing waste and fuel to produce a mixed fuel; a step of supplying the mixed fuel from a fuel supply port and / or a vicinity thereof and burning the fuel; And / or introducing the mixed fuel and / or the ammonia-containing gas generated from the ammonia nitrogen-containing waste in a stage before burning the mixed fuel into a portion having a gas temperature of 700 ° C. or more by the combustion. A combustion process. 3. A combustion method in the production of cement, wherein fuel is supplied from a kiln burner and / or a calciner burner in a cement firing step, and ammonia-containing nitrogen-containing waste is supplied from a kiln burner and a kiln burner in a cement firing step. And / or a step of supplying and burning from a calciner burner and / or the vicinity thereof, and the step of burning the ammonia-containing waste in the stage before the burning of the ammonia-containing waste. Introducing the gas to a site having a gas temperature of 700 ° C. or higher. 4. A combustion method in the production of cement, comprising the steps of: mixing ammonia-nitrogen-containing waste with fuel to produce a mixed fuel; and providing the mixed fuel with a kiln burner and / or a temporary fuel in a cement burning step. Supplied from the furnace burner and / or near it,
Burning the ammonia-containing gas generated from the mixed fuel and / or ammonia-nitrogen-containing waste in the step of producing the mixed fuel and / or in the stage before burning the mixed fuel, in a cement firing step. Temperature is 700 ° C
And a step of introducing into the above site. 5. The combustion method according to claim 1, wherein the waste containing ammonia nitrogen is sewage sludge. 6. The combustion method according to claim 1, wherein the waste containing ammonia nitrogen is human waste. 7. The combustion method according to claim 1, wherein the fuel combusted with the ammonia nitrogen-containing waste is coal, petroleum, and / or oil coke. 8. The use ratio of the ammonia nitrogen-containing waste to the fuel is such that the ammonia nitrogen waste is a solid content of 2 to 25 parts by weight with respect to 100 parts by weight of the fuel. The combustion method according to any one of claims 1 to 7. 9. A means for supplying fuel from a fuel supply port and supplying and burning ammonia-nitrogen-containing waste from a fuel supply port and / or the vicinity thereof, and combusting the ammonia-nitrogen-containing waste. Means for introducing the ammonia-containing gas generated from the ammonia-nitrogen-containing waste in the step (c) to a portion having a gas temperature of 700 ° C. or more by the combustion. 10. A means for mixing an ammonia nitrogen-containing waste and a fuel to produce a mixed fuel, a means for supplying the mixed fuel from a fuel supply port and / or the vicinity thereof and burning the fuel, and the mixed fuel. And / or introducing the mixed fuel and / or the ammonia-containing gas generated from the ammonia nitrogen-containing waste in a stage before burning the mixed fuel into a portion having a gas temperature of 700 ° C. or more by the combustion. Means for performing combustion. 11. A cement production system, wherein fuel is supplied from a kiln burner and / or a calciner burner in a cement firing step, and ammonia-containing nitrogen-containing waste is supplied from a kiln burner and / or a temporary furnace in a cement firing step. A means for supplying and burning from the furnace burner and / or the vicinity thereof, and an ammonia-containing gas generated from the ammonia-nitrogen-containing waste in a stage before burning the ammonia-nitrogen-containing waste, the gas temperature of which is reduced by the combustion. Means for introducing the material to a site at a temperature of 700 ° C. or higher. 12. A cement manufacturing system, comprising: means for mixing ammonia-nitrogen-containing waste and fuel to produce a mixed fuel; and a kiln burner and / or a calciner burner in a cement burning step of the mixed fuel. And / or supplied from the vicinity thereof,
Means for burning, the step of producing the mixed fuel and / or the step of prior to burning the mixed fuel, the ammonia-containing gas generated from the mixed fuel and / or the ammonia-containing nitrogen-containing waste gas in a cement firing step. Temperature is 700 ° C
And a means for introducing into the above site.