JPS63315814A - Luminous flame combustion device - Google Patents

Abstract

PURPOSE:To shorten the length of flame to reduce the size of a combustion chamber, by providing a premixing part, a thermal decomposition part, and an auxiliary fuel feed passage. CONSTITUTION:A premixing part 7 is provided for feeding premixture gas of gas fuel from a pipeline 6 and air for combustion from a blower 8 to a fuel feed passage 4; an auxiliary fuel feed part 8 is connected to a cylinder body 3, and an air feed passage 9 to a burner body 2. A thermal decomposition part 10 is formed internally of the tip side of the cylinder body 3 and an air-fuel mixing part 11 is formed internally of the tip side of the burner body 2. In the thermal decomposition part 10, gas fuel from the auxiliary fuel feed passage 8 is heated to approximate 1000-1200 deg.C or more by means of an auxiliary flame F1 through the outlet of the fuel feed part 4 for thermal decomposition to generate floating carbon particle. In the air-fuel mixing part 11, gas fuel from the fuel feed passage 4 and the auxiliary fuel feed part 8 and air for combustion from the air feed passage 9 are mixed together properly and violently. The main flame F2 through a main burner port 1 is shortened, and the main flame F2 forms luminous flame through the feed of floating carbon particles from the thermal decomposition part 10.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a luminous flame combustion device in which a fuel supply path for supplying gas fuel and an air supply path for supplying combustion air are connected to an air-fuel mixing section. Regarding.

[Conventional technology]

Conventionally, in order to form a high-intensity luminous flame using gas fuel, gas fuel from a fuel supply path where air is not premixed and combustion air from an air supply path are directed towards an air mixing section with less turbulence. The mixture of gas fuel and combustion air causes slow combustion, and the thermal decomposition of the gas fuel by the main flame generates floating carbon particles. (See, for example, Japanese Unexamined Patent Publication No. 60-202225).

[Problem that the invention seeks to solve]

However, since the main flame is formed through slow combustion, the main flame becomes long, which is disadvantageous for downsizing the combustion chamber.Also, even if attempts are made to shorten the main flame, the structure is complex and the main flame is too large to be large enough. There was a drawback that the flame could not be shortened.

An object of the present invention is to make it possible to sufficiently shorten the main flame and to make the device simple and compact.

[Means for solving problems]

A characteristic configuration of the present invention is that a premixing section is provided for supplying a premixed gas of gas fuel and combustion air to a fuel supply path connected to an air-fuel mixing section together with an air supply path, and an outlet of the fuel supply path is provided. A pyrolysis section is provided between the air-fuel mixture section and the air-fuel mixing section to generate floating carbon particles by pyrolysis of the gas fuel by an auxiliary flame from the outlet of the fuel supply path, and an auxiliary fuel for supplying the pyrolyzed gas fuel. The supply path is connected to the thermal decomposition section, and its effects are as follows.

[For production]

In other words, the fuel gas from the auxiliary fuel supply path is heated to 1,000 to 120
It is heated to about 0° C. or higher to cause thermal decomposition to generate floating carbon particles necessary for forming a bright flame, and the floating carbon particles are supplied to the air-fuel mixing section.

Therefore, even if the main flame is extremely short by vigorously mixing the gas fuel and combustion air in the air-fuel mixing section, a sufficient amount of suspended carbon particles can be reliably supplied to the main flame, resulting in a sufficiently high brightness. This ensures that a main flame with good radiation efficiency and low NO is obtained.Furthermore, the combustion promoting effect of the auxiliary flames can be effectively used to shorten the main flame, and compared to the conventional slow combustion method, it is possible to obtain a main flame with sufficient high brightness. It is possible to significantly shorten the flame while maintaining the

Furthermore, it is only necessary to provide a premixing section, a thermal decomposition section, and an auxiliary fuel supply path, all of which can be easily and compactly formed, and the luminous flame combustion apparatus can be formed easily, inexpensively, and compactly.

〔Effect of the invention〕

As a result, not only can a bright flame that is useful for improving radiation efficiency and reducing NOx be obtained, but the combustion chamber can be sufficiently downsized by shortening the flame, and the device itself is simple and compact, making it easier to use equipment as a whole. It is now possible to provide an even more advantageous luminous flame combustion device.

〔Example〕

Next, an example will be shown with reference to FIG.

A cylindrical body (3) is provided inside the burner body (2) that forms the main flame port (1), and a pipe (5) that forms the fuel supply path (4) inside is provided inside the cylindrical body (3). , a premixing section (7) is provided for supplying a premixed gas of gas fuel from the pipe (6) and combustion air from the blower (B) to the fuel supply path (4), and an auxiliary fuel supply path ( 8) is connected to the cylinder (3), and the air supply path (9) is connected to the burner body (2).

A pyrolysis part (10) is provided inside the tip side of the cylinder (3), and
An air-fuel mixing section (11) is formed inside the tip side of the burner body (2), and a fuel supply path (
The auxiliary flame (F,) from the outlet of 4) heats the gaseous fuel from the auxiliary fuel supply path (8) to a temperature of about 1000 to 1200°C or higher and thermally decomposes it, generating floating carbon particles. In the air-fuel mixing part (11), the gas fuel from the fuel supply path (4) and the auxiliary fuel supply path (8) and the combustion air from the air supply path (9) are mixed moderately and vigorously, and the main The main flame (F2) from the flame port (1) is shortened, and floating carbon particles are supplied from the pyrolysis section (10) to make the main flame (F2) a bright flame. In addition, the temperature of the main flame (F2) is lowered by the high radiation caused by the luminous flame, and the combustion is performed in two stages to reduce NOx. This action aims to stabilize and promote combustion of the main flame (F2).
It is configured to enable stabilization of F2) and increase in temperature.

[Another example]

Next, I will explain Betsuji Zettai.

In order to shorten the main flame (F2), as shown in Figure 2,
Combustion air from the air supply path (9) flows into the burner body (2)
The direction and position of the air outlet (9a) may be set so that the air flows in a swirling manner.

In order to expand the combustion range of the main flame (F2), as shown in FIG. 3, in addition to the configuration shown in FIG. 2, a throttle (12) may be provided in the air-fuel mixing section (11).

In order to increase the temperature of the main flame (F2) by reducing the air ratio, the fourth
As shown in the figure, in addition to the configuration shown in FIG. (11) may be provided with a second premixing section (14). Further, as shown in FIG. 5, a gas fuel discharge port (15
) to form a second premixing section (1) within the burner body (2).
4) may be formed. Furthermore, those second premixing sections (
14) may be added to the configuration of FIGS. 2 and 3.

Types of gas fuel include city gas, natural gas, propane gas,
Any other hydrocarbon gas fuel may be used, and the first premixing section (7), the auxiliary fuel supply path (8)
The gas fuel distribution ratio for the second premixing section (14) can be appropriately selected, and the distribution ratio may be adjusted by an appropriate manual adjustment means or automatic adjustment means.

The combustion air may be oxygen-enriched and the first
Total supply amount (
The system may be constructed so that the air ratio) and distribution ratio can be appropriately selected, and the total supply amount and distribution ratio can be adjusted by appropriate manual adjustment means or automatic adjustment means.

The luminous flame combustion device may be used as a heating furnace, boiler, or any other device.

Incidentally, although reference numerals are written in the claims section for convenient comparison with the drawings, the present invention is not limited to the structure shown in the accompanying drawings.

[Brief explanation of the drawing]

FIG. 1 is a conceptual diagram showing an embodiment of the present invention, and FIGS. 2 to 5 are conceptual diagrams showing different embodiments of the present invention. (4)...Fuel supply path, (7)...Premixing section, (8)...Auxiliary fuel supply path, (9)...
... Air supply path, (10) ... Thermal decomposition section, (11) ... Air-fuel mixing section, (Fl) ...
...Secondary inflammation.

Claims (1)

[Claims] 1. A fuel supply passage (4) for supplying gas fuel and an air supply passage (9) for supplying combustion air are connected to an air-fuel mixing section (11).
), wherein the fuel supply path (
4) is provided with a premixing section (7) for supplying a premixed gas of gas fuel and combustion air, and the fuel is provided between the outlet of the fuel supply path (4) and the air/fuel mixing section (11). A pyrolysis section (10) is provided that generates floating carbon particles by thermal decomposition of gas fuel by an auxiliary flame (F_1) from the outlet of the supply path, and an auxiliary fuel supply path (8) for supplying the gas fuel to be thermally decomposed is provided. A bright flame combustion device connected to the pyrolysis section (10). 2. The premixing section (7) has a gas fuel to air ratio of approximately 1.
The bright flame combustion device 3 according to claim 1, wherein the premixing section (7) is configured to premix combustion air with a
The luminous flame combustion apparatus according to claim 1, wherein combustion air is premixed with the gas fuel at an air ratio of 0.8 or more and less than 1. 4. The premixing section (7) has a gas fuel to air ratio of 1 to 1.
．． 2. The bright flame combustion apparatus according to claim 1, wherein the combustion air is premixed in a range of 2.