JP2776429B2 - Combustion method in a low nitrogen oxide generating furnace - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for burning nitrogen oxides.

[0002]

2. Description of the Related Art Alternating combustion in which two burners each having a heat accumulator are used as a set and alternately burns is performed. However, this is a highly energy-efficient combustion method in which a very high preheated air temperature is obtained as compared with a conventional indirect heat exchanger by being preheated by the recovered sensible heat. Since the combustion is performed alternately, the temperature gradient generated by the combustion of each burner is canceled, and the temperature distribution in the furnace becomes uniform.

[0003]

2. Description of the Related Art In the conventional combustion method described above, since the preheated air becomes high, the flame temperature rises and nitrogen oxides (N
O _x ) is at a high level.

[0004]

In order to solve the above-mentioned problems, the present invention provides an alternating combustion burner for alternately burning two burners each having a heat storage unit as a set on a furnace body wall.
On the other hand, it is different from the furnace body wall with this alternating burner
A gas nozzle is installed on the furnace wall, and each of the alternating combustion burners
The burner is supplied with 10 to 20% of the total amount of fuel and diluted alternately.
Thin primary combustion is performed, and then the fuel
Supply 80-90% of fuel gas to the furnace continuously
And the cooling effect of excess air from the lean primary combustion,
Flame by performing slow secondary combustion by self-recirculation
Suppress temperature rise to reduce NOx generation
It is characterized by having done.

[0005] The present invention also relates to two batteries having a heat accumulator.
Burners that alternately burn a set of burners
While attaching to the body wall, place the gas nozzle near the center of the furnace.
Charge and inject fuel gas near the center of the furnace
And the total amount of fuel in each of the alternating combustion burners.
And alternately perform lean primary combustion by supplying 10 to 20% of
Next, from the gas nozzle, 80 to 90 of the total fuel amount
% Of fuel gas is continuously supplied into the furnace,
Cooling effect by surplus air from combustion and slowing by self-recirculation
Slow secondary combustion to suppress flame temperature rise
In addition, the generation of NOx is reduced .

[0006] The present invention also provides two batteries having a heat storage body.
Burners that alternately burn a set of burners
It can be mounted on the body wall and can be used for each burner of the alternating combustion burner
Then, two gas nozzles are installed on the opposite wall,
Provide 10-20% of the total fuel to each burner in the combustion burner
And alternately perform lean primary combustion, and then each of the burners
The gas nozzle corresponding to the combustion of
90% fuel gas is supplied, and the surplus of the lean primary combustion
Cooling effect by air and slow secondary combustion by self-recirculation
In order to suppress the increase in the flame temperature,
It is characterized in that generation is reduced .

[0007] The present invention also relates to two batteries having a heat accumulator.
Burners that alternately burn a set of burners
While attached to the body wall, on the nearby side wall adjacent to the furnace body,
Two gas nozzles are provided for each burner of the alternating combustion burner.
And the total amount of fuel in each of the alternating combustion burners
And alternately perform lean primary combustion by supplying 10 to 20% of
Next, gas nozzles corresponding to the combustion of each burner are
80-90% of the total amount of fuel is supplied,
The cooling effect of the excess air from the primary combustion and the self-recirculation
Slow secondary combustion to suppress the rise in flame temperature.
And the generation of NOx is reduced .

[0008]

In each of the burners of the alternating combustion burner, stable primary lean combustion is performed alternately, and the remaining fuel gas is supplied into the furnace from a gas nozzle installed on another wall. Since the secondary combustion reaction occurs in the furnace after mixing with the excess air in the furnace, the rise in flame temperature is suppressed by the cooling effect of the excess air during the primary combustion and the self-exhaust gas recirculation and slow combustion of the secondary combustion reaction. As a result, generation of NO _x is suppressed.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference numeral 1 denotes a furnace body, 2 denotes each burner A, B
And a set of alternating combustion burners installed on the furnace body wall 4. A gas nozzle 6 is installed on a furnace wall different from the furnace wall 4. In the case of FIG. 1 and FIG.
3 and FIG. 4 show an example in which the gas nozzle 6 is inserted near the center of the furnace body 1, and FIG. 5 and FIG. Is the furnace body wall 4
This is an example in which two gas nozzles 6 are installed on the opposite wall 5 of FIG.
FIGS. 7 and 8 show examples in which two gas nozzles 6 are installed on the side wall 7 near the furnace body wall 4. Alternating burner 2
Is composed of burners A and B, each having a regenerator 3, while when A is burning, the sensible heat of the exhaust gas is recovered by the regenerator 3 of another burner B, and then the regenerator The air passing through the body 3 is preheated by the recovered sensible heat and supplied for combustion. Such alternate combustion is performed by switching the valve 8. 9 is an air supply fan, and 10 is an exhaust fan. 11 and 12 are gas supply pipes.

Thus, in the alternating combustion burner 2, while performing lean primary combustion alternately with 10 to 20% of the total amount of gas, self-recirculation is performed with 80 to 90% of the total amount of gas from the gas nozzle 6. This is to execute slow secondary combustion.

In FIG. 1 and FIG. 2, when the burner A is burning, the combustion air flows to the side A, is preheated by the preheated regenerator 3, and is introduced from the gas supply pipe 11. A lean primary combustion flame 13 is formed by mixing with the gas. The gas amount supplied at this time is a gas amount of 10 to 20% of the total amount. At this time, from the gas nozzle 6 of the opposing wall 5,
80-90% of the remaining gas is constantly spouting,
This gas and the combustion flame 13 mix and burn. The combustion flame generated in this manner is the slow secondary combustion flame 14 due to the cooling effect by the excess air of the lean primary combustion and the self-recirculation. The slow secondary combustion flame 14 and the above-described lean primary combustion flame 13 maintain the NOx generation in which the increase in the flame temperature is suppressed at a low level. FIGS. 1 and 2 show the state of alternate combustion.

FIGS. 3 and 4 show an example in which the gas nozzle 6 is inserted near the center of the furnace. The fuel gas diffused by the blast and the lean primary combustion flame 13 are mixed well. While burning, a slow secondary combustion flame 14 is formed near the center of the furnace. 2 and 3 show an alternate combustion state.

FIGS. 5 and 6 show an example in which two gas nozzles 6 are installed on the opposing wall 5 corresponding to each of the burners A and B. In this case, when the burner A is burning, , Gas is ejected only from the corresponding gas nozzle 6,
A slow secondary combustion flame 14 is formed. The gas nozzles 6 alternately squirt the gas corresponding to the combustion of the burners A and B.
FIG. 5 and FIG. 6 show a state of alternate combustion.

7 and 8, the alternating combustion burner 2
Two gas nozzles 6 on the side wall 7 near the furnace wall 4 where
Are separately installed. In this case, FIGS. 5 and 6
The combustion is performed in the same manner as in the case (1) to form the lean combustion flame 13 and the slow secondary combustion flame 14. 7 and 8 show the alternate combustion state.

The following table shows the results of implementation of the present invention and the prior art. NO _x comparative data ─────────────────────────────────── combustion method _{NOx ppm (O 2 = 11%} ) NO _x reduction rate (%) ─────────────────────────────────── Conventional normal combustion 800 standards The present invention Combustion 250 75 ─────────────────────────────────── Combustion conditions Combustion amount: 20 × 10 ⁴ kcal / h primary and secondary fuel ratio: 2.5 final air ratio: 1.3 (residual O ₂ concentration of 5%) furnace temperature: 1350 ° C. preheated air temperature: 1100 ° C. switching time: by 60 seconds or more, NO _x is a greatly It can be seen that it has been reduced.

[0016]

According to the present invention, as described above, the lean primary combustion and the slow secondary combustion are organically and rationally executed, and the generation of NOx is remarkably suppressed.

[Brief description of the drawings]

FIG. 1 is a systematic explanatory diagram showing one embodiment of the present invention.

FIG. 2 is a systematic explanatory diagram showing one embodiment of the present invention.

FIG. 3 is a systematic explanatory diagram showing one embodiment of the present invention.

FIG. 4 is a systematic explanatory diagram showing one embodiment of the present invention.

FIG. 5 is a systematic explanatory diagram showing one embodiment of the present invention.

FIG. 6 is a systematic explanatory diagram showing one embodiment of the present invention.

FIG. 7 is a systematic explanatory diagram showing one embodiment of the present invention.

FIG. 8 is a systematic explanatory diagram showing one embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Furnace body 2 Alternating combustion burner 3 Livestock body 4 Furnace body wall 5 Opposite wall 6 Gas nozzle 7 Nearby wall 8 Valve 9 Air supply fan 10 Exhaust fan 11 Gas supply pipe 13 Lean primary combustion flame 14 Slow secondary combustion flame 15 Exhaust cylinder

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) F23C 11/00 325 F23C 11/00 321 F23D 14/66 F23L 15/02

Claims (4)

(57) [Claims] An alternating combustion burner for alternately burning two sets of burners each having a heat storage body as a set is mounted on a furnace body wall, and is different from the furnace body wall on which the alternating combustion burner is mounted.
A gas nozzle is installed on the furnace body wall to
Alternately supply 10-20% of the total fuel to each burner
Perform lean primary combustion, then from the gas nozzle,
Fuel gas of 80 to 90% of the total fuel amount is continuously supplied into the furnace.
Cooling effect by the excess air of the lean primary combustion
And perform slow secondary combustion by self-recirculation,
Suppress the rise in flame temperature to reduce NOx generation
A combustion method in a low-nitrogen oxide generating furnace, characterized in that: 2. A set of two burners having a heat storage body.
Alternating combustion burners that burn alternately on the furnace body wall
On the other hand, a gas nozzle was inserted near the center of the furnace
The fuel gas is ejected near the center.
10 to 20 of the total amount of fuel in each burner
% Alternately to perform lean primary combustion, and then
80-90% of the fuel gas from the fuel nozzle
Is continuously supplied into the furnace, and the excess air of the lean primary combustion is
Cooling effect by air and slow secondary combustion by self-recirculation
In this way, the rise in flame temperature is suppressed, and NOx
A method for burning in a low-nitrogen-oxide generating furnace, characterized in that the composition is reduced . 3. A set of two burners each having a heat storage body.
Alternating combustion burners that burn alternately on the furnace body wall
On the other hand, for each of the alternating combustion burners,
Two gas nozzles are installed on the opposite wall, and the alternating combustion burner
Alternately supply 10-20% of the total fuel to each burner
Performs lean primary combustion, and then responds to the above burners
80 to 90% of the total fuel amount
The gas is supplied to cool the lean primary combustion with excess air.
Effect and slow secondary combustion by self-recirculation
To suppress the increase in the flame temperature and reduce the generation of NOx.
A method for in-furnace combustion in a low-nitrogen oxide generating furnace, characterized in that: 4. A set of two burners each having a heat storage body.
Alternating combustion burners that burn alternately on the furnace body wall
On the other hand, an alternating combustion bar is provided on a side wall adjacent to the furnace body.
Two gas nozzles are installed for each burner.
10 to 20 of the total amount of fuel in each burner
% Have rows lean primary combustion alternately supplying, then each
The gas nozzle corresponding to the burner combustion is
By supplying 80 to 90% of fuel, the remainder of the lean primary combustion
Cooling effect by excess air and slow secondary combustion by self-recirculation
By performing baking, the rise in flame temperature is suppressed and NOx
2. The method according to claim 1, wherein generation of nitrogen is reduced.