JP2001021135A - Method for supplying fuel gas to gas burner requiring high turn down ratio - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent trouble, e.g. flame failure, by premixing fuel gas jetted from a gas nozzle with an appropriate quantity of gas other than the fuel gas constantly or at the time of low combustion thereby increasing the flow rate ratio of fuel gas and increasing the gas pressure on the upstream side. SOLUTION: A gas burner comprises a gas burner body 1, a combustion air supply opening 2, a gas nozzle 3, and a flame holder 4. A fuel gas supply system 6 and other gas supply system 8 are provided on the upstream side of the gas nozzle 3 and they are coupled with the gas nozzle 3 while being joined. The gas supply system 8 is supplied with air or gas other than fuel, e.g. nitrogen gas. The supply system 6 is provided with a flow controller 5. When fuel gas is premixed with an appropriate quantity of gas other than the fuel gas constantly or only at the time of low combustion and then jetted from the gas nozzle and combusted, pressure ratio of mixture gas between maximum and minimum combustion times can be reduced significantly even if the turn down ratio is increased.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas burner,
The present invention relates to a fuel gas supply mechanism in a gas burner requiring a high turndown ratio.

[0002]

2. Description of the Related Art FIG. 5 shows an example of a normal gas burner. Reference numeral 1 denotes a burner body, 2 denotes a combustion air supply port, 3 denotes a gas nozzle, and 4 denotes a flame holding plate. The upstream side of the gas nozzle 3 is connected to a fuel gas supply system 6 having a gas flow control device 5. In order to increase the fuel gas flow ratio at the time of maximum and minimum combustion (including the minimum flow rate at the time of ignition of a direct ignition burner that does not use a pilot burner) in such a normal gas burner, the following has conventionally been used. The technique shown is used. a. Technique to increase gas pressure. As will be described later, the gas pressure ratio at the time of maximum and minimum combustion, that is, the gas pressure at the time of maximum combustion / gas pressure at the time of minimum combustion, requires a square of the turn-down ratio. The gas pressure ratio is 100: 1
Assuming that the gas pressure during the minimum combustion is about 10 mmAq, a high gas pressure of 1,000 mmAq is required during the maximum combustion. b. As shown in FIG. 6, a plurality of gas nozzles 3 are provided in one burner, and a fuel gas supply system 6 provided with an on-off valve 7 such as an electromagnetic valve is connected to each gas nozzle 3 so that each fuel gas supply system 6 to supply gas,
A technique that determines the amount of fuel gas by the number of nozzles that eject gas.
For example, when a flow ratio of 10: 1 is required, ten gas nozzles are provided, and gas is ejected from all ten gas nozzles during maximum combustion, and gas is ejected from only one gas nozzle during minimum combustion. c. A method combining the above two methods a and b.

[0003]

The above techniques have the following problems. (1) In the method a, as described above, since the gas pressure at the time of the maximum combustion needs to be high, it is difficult to use city gas (for example, 200 mmAq) supplied at a low pressure. Further, as in a regenerative burner or the like, the internal pressure of the burner (pressure in a space where gas is discharged into the burner: P in FIG. 1)
If there is a fluctuation in i), the fluctuation is easily affected, especially during low combustion. That is, when the internal pressure changes to a value equal to or higher than the gas pressure at the time of the minimum combustion, the ejection of the gas stops and a misfire occurs. Therefore, in order to prevent such an influence, the gas pressure at the time of the minimum combustion needs to be equal to or more than the internal pressure fluctuation value. For example, assuming that the internal pressure fluctuation is several tens mmAq, the gas pressure at the time of the minimum combustion is set to 100 mmAq, and the turndown ratio is set to 10: 1 so as not to be affected by the fluctuation.
Then, the gas pressure at the time of the maximum combustion becomes extremely high at 10,000 mmAq. (2) In the method (b), not only the structure of the burner but also the gas supplied to each gas nozzle needs to be individually controlled, which complicates both the piping and the control device. In addition, it is difficult to dispose the gas nozzle in the burner, and the nozzle for ejecting the gas varies depending on the amount of combustion, so that the flame shape and the like change. (3) The technique c, which combines technique a and technique b, has the same problems as the above techniques. An object of the present invention is to solve the above problems.

[0004]

In order to solve the above-mentioned problems, according to the present invention, in a gas burner, fuel gas ejected from a gas nozzle via a fuel gas supply system is provided.
The present invention proposes a method of supplying a fuel gas in a gas burner requiring a high turndown ratio, in which an appropriate amount of a gas other than the fuel gas, for example, air or nitrogen gas, is always premixed or only during low combustion.

According to the present invention, in the above configuration,
A fuel gas supply system and a gas supply system are connected via a mixer to the upstream side of the gas nozzle, and an appropriate amount of gas other than fuel gas supplied by the fuel gas supply system is supplied from the gas supply system to the mixer at all times or only during low combustion. Suggest to do.

In the present invention, it is proposed that the fuel gas supply system comprises a main combustion fuel gas supply system and a pilot combustion fuel gas supply system.

Further, according to the present invention, on the upstream side of the gas nozzle,
A fuel gas supply system comprising a main combustion fuel gas system and a pilot combustion fuel gas supply system is configured, and a gas supply system is connected to the pilot combustion fuel gas supply system, and the pilot combustion fuel gas supply system is It is proposed that a gas other than the fuel gas be premixed from the gas supply system at all times or only during low combustion.

According to the present invention, the flow rate ratio of the mixture of the fuel gas and the gas ejected from the gas nozzle at the time of maximum and minimum combustion is smaller than the flow rate ratio of the fuel gas corresponding to the turndown ratio. Therefore, the square ratio of the flow rate of the air-fuel mixture at the time of maximum and minimum combustion is much smaller than the square ratio of the flow rate of the fuel gas. Therefore, even if the turndown ratio is increased,
The pressure ratio of the air-fuel mixture at the time of the minimum combustion can be greatly reduced. At this time, the gas can be always premixed at the time of maximum combustion and minimum combustion, or can be premixed only at low combustion including minimum combustion.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described together with embodiments. First, FIG. 1 is a system diagram conceptually showing a system of a gas burner to which the method of the present invention is applied, and the same components as those of the conventional ordinary gas burner shown in FIG. . That is, reference numeral 1 denotes a burner body of a gas burner, 2 denotes a combustion air supply port, 3 denotes a gas nozzle,
Is a flame holding plate. A fuel gas supply system 6 and another gas supply system 8 are provided on the upstream side of the gas nozzle 3, and these are combined and connected to the gas nozzle 3.
Is supplied with a gas other than fuel, such as air or nitrogen gas. The fuel gas supply system 6 is provided with a gas flow control device 5.

According to the present invention, in the present invention, a gas other than the fuel gas is premixed in the fuel gas always or only at the time of low combustion, and the fuel gas is ejected from the gas nozzle to perform combustion. Even if is increased, the pressure ratio of the air-fuel mixture during the maximum and minimum combustion can be greatly reduced. Therefore, the reason will be described next.

In general, the pipe diameter between the flow rate Q of gas flowing out of a nozzle or the like and the pressure difference ΔP before and after the nozzle is expressed by the following equation, where ρ is the specific gravity of the gas. Q = {k (ΔP / ρ)} ΔP = (1 / k) ρQ ² Therefore, the pressure ratio Δ corresponding to the turndown ratio Qmax / Qmin
Pmax / ΔPmin is given by the following equation. ^{ΔPmax / ΔPmin = Qmax 2 · ρmax} / (Qmin 2 · ρmi
n) Here, in a case where only a normal fuel gas is ejected from a gas nozzle as in a conventional combustion method, if the turndown ratio is 10, the specific pressure of the supplied gas pressure ratio is constant (in the case of natural gas, ρ = 0.65), so that ΔPmax / ΔPmin = 100.

Next, by applying the method of the present invention, natural gas (ρ
= 0.65) at a maximum of 10 and a minimum of 1, that is, a burner that burns at a turndown ratio of 10 by mixing air (ρ = 1) with natural gas at a flow rate of about 4 at all times,
Assuming that the gas is ejected from the gas nozzle and burned, the flow rate Q and the specific gravity ρ of the air-fuel mixture during the maximum combustion and the minimum combustion are obtained.
Is as follows. Largest combustion time: Qmax = 10 + 4 = 14 ρmax = 0.75 minimum firing time: Qmin = 1 + 4 = 5 ρmin = 0.93 Thus pressure ^{ratio, ΔPmax / ΔPmin = 14 2 ·} 0.75 / (5 2 · 0. 9
3) = 6.3 In the combustion method of the present invention, the pressure ratio can be greatly reduced as compared with the conventional combustion method in which only natural gas is ejected from a gas nozzle and burned.

Next, by applying the method of the present invention, natural gas (ρ
= 0.65) at a maximum of 10 and a minimum of 1, that is, at a turndown ratio of 10, the burner burns natural gas into air (ρ) only during low combustion (for example, in the range of natural gas flow of 3 to 1). = 1) mixed with a flow rate of about 4 and ejected from the gas nozzle for combustion, the flow rate Q and the specific gravity ρ of the air-fuel mixture at the time of maximum combustion and at the time of minimum combustion are as follows. At the time of maximum combustion: Qmax = 10 ρmax = 0.65 At the time of minimum combustion: Qmin = 1 + 4 = 5 ρmin = 0.93 Therefore, the pressure ratio is ΔPmax / ΔPmin = 10 ²・ 0.65 / (5 ²・ 0.9
3) = 2.8, and in the present invention, in the method of premixing the gas only during low combustion, the pressure ratio can be further reduced as compared with the method of always premixing and burning. Therefore, assuming that the allowable pressure ratio is the same, the method of premixing gas only during low combustion can reduce the amount of gas to be premixed as compared with the method of constantly premixing. In the above example, at the time of the natural gas flow rate 4, since air is not mixed, the pressure ratio is ΔPmax / ΔPmin = 10 ²・ 0.65 / (4 ²・ 0.6
5) = 6.25

FIG. 2 shows an embodiment of a fuel gas supply mechanism according to the present invention. In this embodiment, a fuel gas supply system 6 is provided upstream of a gas nozzle 3 via a mixer 9. A gas supply system 8 is connected, and an appropriate amount of air, nitrogen gas, or the like is constantly supplied from the gas supply system 8 to the mixer 9. In this embodiment, gas such as air or nitrogen gas mixed into the fuel gas can be ejected from the gas nozzle 3 in a state of being well mixed.

FIG. 3 shows another embodiment of a fuel gas supply mechanism according to the present invention. In this embodiment, a fuel gas supply system is provided upstream of a gas nozzle 3 via a mixer 9. 6 is connected to the gas supply system 8, and the fuel gas supply system 6 includes a main combustion fuel gas supply system 6a and a pilot combustion fuel gas supply system 6b.
The fuel gas supply system for main combustion 6a and the fuel gas supply system for pilot combustion 6b are provided with on-off valves 7a and 7b, respectively. That is, in this embodiment,
The gas burner has a configuration in which combustion is controlled by three-position control of high, low, and off. Premixing of gas by the gas supply system 8 can be always performed regardless of high or low, or only in low. Can be done.

FIG. 4 shows another embodiment of the fuel gas supply mechanism according to the present invention. In this embodiment, a main combustion fuel gas system 6a and a pilot gas A fuel gas supply system 6 including a combustion fuel gas supply system 6b is configured, and a gas supply system 8 is connected to the pilot combustion fuel gas supply system 6b, and the fuel gas is connected to the pilot combustion fuel gas supply system 6b. The other gas is premixed from the gas supply system 8 at all times or only during low combustion.

[0017]

As described above, the present invention has the following effects. a. The flow rate ratio of the fuel gas at the time of maximum and minimum combustion, that is, the turndown ratio can be increased without extremely increasing the gas pressure (pressure of the air-fuel mixture) on the upstream side of the gas nozzle. b. Even in a gas burner such as a regenerative burner where the internal pressure fluctuates greatly, the gas pressure on the upstream side of the gas nozzle at the time of the lowest combustion is increased without extremely increasing the gas pressure on the upstream side of the gas nozzle (pressure of the air-fuel mixture). It is possible to avoid troubles such as misfire. c. There is no need to install many pipes and control devices for one gas burner, and the equipment is simple and can be applied at low cost.

[Brief description of the drawings]

FIG. 1 is a system diagram conceptually showing a system of a gas burner to which the method of the present invention is applied.

FIG. 2 is a system diagram conceptually showing another system of a gas burner to which the method of the present invention is applied.

FIG. 3 is a system diagram conceptually showing still another system of the gas burner to which the method of the present invention is applied.

FIG. 4 is a system diagram conceptually showing still another system of a gas burner to which the method of the present invention is applied.

FIG. 5 is a system diagram conceptually showing a system of a conventional ordinary gas burner.

FIG. 6 is a system diagram conceptually showing a system of a conventional gas burner, in which (a) shows a back side of the gas burner, and (b) shows a longitudinal section.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Burner body 2 Air supply port for combustion 3 Gas nozzle 4 Flame holding plate 5 Gas flow control device 6 Fuel gas supply system 7, 7a, 7b Open / close valve 8 Gas supply system 9 Mixer

Claims (5)

[Claims] In a gas burner, a high turndown ratio is required in which a proper amount of gas other than the fuel is premixed at all times or only during low combustion in fuel gas ejected from a gas nozzle via a fuel gas supply system. Method of supplying fuel gas in gas burner 2. A fuel gas supply system and a gas supply system are connected to the upstream side of a gas nozzle via a mixer, and a gas other than the fuel gas supplied from the gas supply system to the mixer is constantly or low supplied from the gas supply system to the mixer. 2. A method for supplying fuel gas in a gas burner requiring a high turndown ratio according to claim 1, wherein an appropriate amount is supplied only during combustion. 3. The fuel gas supply system comprises a main combustion fuel gas supply system and a pilot combustion fuel gas supply system, and each of the main combustion fuel gas supply system and the pilot combustion fuel gas supply system is opened and closed. 3. A method according to claim 1, wherein a valve is provided, and wherein the fuel gas is supplied to a gas burner requiring a high turndown ratio. 4. A fuel gas supply system comprising a main combustion fuel gas system and a pilot combustion fuel gas supply system is configured upstream of the gas nozzle, and a gas supply system is connected to the pilot combustion fuel gas supply system. 2. A high turndown ratio according to claim 1, wherein a gas other than the fuel gas is premixed from the gas supply system to the pilot combustion fuel gas supply system at all times or only during low combustion. Fuel gas supply method in gas burner 5. The method for supplying a fuel gas to a gas burner requiring a high turndown ratio according to claim 1, wherein the gas is air or nitrogen gas.