DE3319570A1 - Gas burner, especially natural gas burner for glass melting plants - Google Patents

Abstract

The gas burner of the invention has a nozzle for the intensive mixing of fuel gas and primary air. The aim is to achieve a considerable saving of energy and simultaneously to extend the operating times of the burner and to increase its efficiency. The invention has as its object the development of a low-noise natural gas burner for glass melting troughs, the arrangement of whose components effects the cracking process with a high fraction of solid particles and carbon radicals and produces a quiet-burning, luminous flame with high heat radiation. The novel burner is characterised in that it is constructed as a parallel flow burner with an inner gas supply pipe and with an interchangeable burner head having a mixing nozzle, and the annular gap between the gas and air supply pipes is such that the quantity of air supplied as primary air amounts to 6-8% of the combustion air requirement. The internal diameter of the gas supply tube corresponds to a combustion gas flow rate of 40-65 m/s, preferably 57 m/s, and the internal diameter of the air supply tube corresponds to a primary air flow rate of 30-60 m/s, preferably 39 m/s. <IMAGE>

Description

Gas burners, especially natural gas burners for glass ohms

systems Field of application of the invention: The invention relates to a Gas burner, in particular a natural gas burner for regeneratively and recuperatively heated Glass melting systems, preferably for glass melting tanks, working tanks and feeders, with a DUse for intensive mixing of fuel gas and PrimCr air.

Characteristics of the known technical solutions: They are already different gas burners, especially natural gas burners for regeneratively heated Glass melting tanks, known such. B. Burners with and without premixing of fuel gas and air.

In the case of gas burners, where the gas is in front of the exit from the burner Primary air as the oxidizing agent, preferably in an amount of 10% by foot complete combustion required minimum air requirement is added, takes place in the core of the flame only an incomplete combustion with heavy soot formation.

This creates a flame with low luminosity.

In the case of glass melting plants, it is used in the preheated combustion air stream the fuel gas is introduced with the help of gas burners and into the respective glass melting plant burned.

The heat of combustion is transferred to the glass bath by convection of the flue gases and mainly by thermal radiation aer Flame or the vault. It is necessary to cover the glass bath as large as possible by reaching the flames and completely burning out the flames in the Secure glass melting tank. This becomes through a soft, calmly burning flame achieved with high luminosity, d. H. through a short burnout with good heat transfer.

In order to achieve this, the smallest coal particles must pass through thermal decomposition (Cm Hn + C -tmC + n + 2 H2) or incomplete combustion (Cm Hn + n / 4 ° 2mC + n / 2 H20) from carbon, glow in the flame.

They also form in the absence of oxygen and temperatures from 1100 0C to 1200 0C by splitting the methane in natural gas free carbon radicals, which also come to glow in the flame.

The course of the reaction in the formation of coal parts is The degree of heating of the gas and the degree of dissolution with the oxygen in the air influenced For example, if the Cm Hn parts of natural gas their decomposition temperature in the absence reach of oxygen, an instant decay occurs. The flame grows strong quiet. and the heat radiation of the flame is correspondingly lower.

It is therefore necessary to break down the heavy hydrocarbons to influence by adding primary air in the gas burner so that the cheapest Gap effect and thus the maximum radiant power of the flame is achieved.

Gas burners in which the gas in the burner is air to regulate the Fission process is fed are known.

In the prior art it is also known that both the forced supply of pressurized air or fan air as well as self-suction of air (injector principle) unsatisfactory on the mixing of fuel gas and Oxidizing agents as well as the luminosity of the flame.

All known gas burners must be able to achieve the gas gap process be installed directly in front of the bathtub basin. You are therefore subject to a Wear duroh the prevailing temperatures, because the gas burner with regenerative heated tubs on the fire side that which is incinerated Gas-air mixtures are cooled and the gas burner on the side facing away from the fire exposed to high temperatures.

The effect can occur that parts of the gas burner depending on The material is destroyed and the burning properties and service life of the gas burner are negative to be influenced.

According to the DD - WP 107 768 is a low-noise high-performance burner known for the heating of glass melting tanks with natural gas, in which the air supply line has a cross-sectional constriction before its transition into the gas-air mixing zone and the gas nozzle with one arranged at a certain angle to the nozzle axis Lift-off edge is provided. However, this gas burner works according to the injector principle, cannot be used for regeneratively heated glass melting tanks and also has not what is necessary for an evenly burning and strongly luminous flame Mixing of fuel gas and oxidizing agent.

Furthermore, according to DD - WP 106 696, there is a gas burner with a gas propellant nozzle known within a housing, welohes flow behind the mouth of the Gas propulsion nozzle has an air outlet nozzle, with a mixing tube attached to the housing is. The air outlet is dimensioned so that the gas flow is less than 5%, preferably 3% of the minimum air requirement are added as primary air.

This gas burner achieves a steadily burning flame with a high flame Luminosity, however, as an injector burner, has the disadvantage of high gas consumption. The amount of primary air sucked in is small because of the Injector effect no large amount of air is sucked in through the outlet connection and consequently the Durohmischungsgrad is lower. With a correspondingly large length to nominal width ratio of the Misoh pipe, the mixing of fuel gas and primary air is improved However, the outlay on equipment is increased Device for intensive mixing of gases, in particular for the production of a combustible gas mixture, known, in the separate for the gases to be mixed DUsen are provided which are arranged concentrically to one another. The gas nozzle there is an annular groove opposite, which is created by the generation of a certain sound vibration enables intensive mixing of gas and oxidizing agent.

Likewise, the natural gas lance known from the literature is after Injector principle expanded. The burning is carried out with a high pressure (at least medium pressure 1000 ... 5000 mm WS) Gasdruok operated.

Due to the selected burner principle, the necessary cold primary air proportion can not guaranteed and thus the fission process of the heavy hydrocarbon peoe cannot be optimally controlled. This causes fluctuations in thermal radiation.

It should also be mentioned that the fuel gas in all known Gas burners for glass melting systems the burners in the medium or high pressure range is supplied to a sufficient with the supplied preheated combustion air To achieve cracking process. In all of these burners is due to this fact a sharp, glowing flame with a short burnout before0 This owns however, the disadvantage that it burns noisily and a different height over its length Has temperature distribution. This also results in the disadvantage of a very different heat radiation but the flame length.

In order to have an even Craok process from the so-called burner mouth in the flame, it is therefore necessary with these burners to use them as Execute under-hearth firing, with the burner set back in relation to the burner mouth and the supply for the combustion air is located above the burner. This in turn creates a further disadvantage that the height of the glass furnace must be greater than when the gas is fed in from the side.

However, if the fuel gas with the o. G. Burners laterally in the combustion air flow dumped, the disadvantage of building the tub in a larger one becomes. Height avoided, however, this does not adequately influence the cracking process in the flame.

Aim of the invention: The aim of the invention is to provide a gas burner, in particular to create a natural gas burner for glass melting systems that eliminates the disadvantages of the known Eliminated gas burners with supply of primary air and with which a considerable energy saving with a simultaneous extension of the burner's service life and an increase in its Efficiency is achieved.

Essence of the invention: The invention is therefore based on the object a low-noise gas burner, especially natural gas burners for regenerative and recuperative applications to develop heated glass melting systems, the structural arrangement of which the cracking process with a high proportion of solid particles and carbon radicals acts and a steadily burning, luminous flame with high, even 1 heat radiation According to the invention, the object is generated by the features in the characterizing part of claim points 1 - 6 solved. In particular, the inventive Arrangement a completely uncomplicated and simplified in its mechanical structure Natural gas burner, which is very quiet and which creates a flame with very good heat transfer and good heat radiation compared to the prior art has significantly improved efficiency.

Another advantage of the arrangement according to the invention results from the fact that that with constant supply of primary air through the outer air supply pipe and the burner head, both the outer air supply pipe and the inner gas supply pipe be cooled on the side of the glass furnace facing away from the fire.

This significantly increases the service life of the gas burner.

In addition, there is the advantage that the supply of the media is exclusive takes place in the low pressure range.

The gas burner according to the invention guarantees a soft, quiet burnout High luminosity flame.

Duroh the exchangeable one connected to the gas and air supply pipe Burner head with the mixing chamber designed according to the invention and the mixing nozzle takes place one intensive mixture of natural gas and primary air for the better Combustion of the body particles leads.

It has advantageously been found that in the case of the selected according to the invention U diameter ratio of D: d = 1.2 ... 2: 1 a primary air flow of preferably 6 ... 8 of the combustion air in the low pressure range and at a flow velocity from 30 ... 60 m / s leads to an optimal mixing and cracking process.

It is important that the amount of gas and air supplied is selected in this way is that the flow rate of the primary air and the fuel gas-primary air mixture is mixed is approximately the same.

The natural gas burner according to the invention is operated with cold primary air. However, the adjustment of the flame length is not made by changing the primary air volume, but achieved by arranging the burner lance on the melting tank. Through this, that the natural gas burner is operated with low pressure gas can be based on the use of Compressed air can be dispensed with. The use of forced air is completely sufficient.

Furthermore, the gas burner according to the invention has a considerable amount Safety-related advantage because of the constant outflow of the primary air an influx of exhaust gases from the glass melting tank into the burner from the nozzle is safely prevented. It also prevents corrosion of the entire burner, as it occurs to a large extent with the previously known burner types, excluded.

Another major advantage arises from the fact that it is through the construction of the burner according to the invention is possible on the one facing away from the fire Side of the glass melting tank to cool the separator by constant supply of cooling air and the temperature fluctuations at the nozzle tip.

the glass melting tank, which is created by changing the hot exhaust gas or cold burner gas flow. This also makes a higher one Service life of the nozzle stone reached.

Exemplary embodiment: The present invention is illustrated below with reference to an example of a clock. Figure 1 shows the structure of the invention Gas burner cut lengthways.

The gas supply pipe 1 is axial within the air supply pipe 2 arranged and protrudes with its, the glass melting tank facing socket over the air supply pipe 2 addition.

The burner head 3 is arranged on the air supply pipe 2 so as to be exchangeable. The burner head 3 has a mixing space 5 designed as a mixing nozzle 4.

The mixing space 5 and the mixing nozzle 4 have different diameters D and d, which conically merge into one another, preferably at an angle of 450, The diameter ratio of the mixing chamber diameter D to the mixing nozzle diameter d is preferably 1.2 ... 2: 1.

The bore of the mixing nozzle 4 through the burner head 3 to the mixing chamber 5 is designed as a smooth bore List of used Reference number 1 gas supply pipe 2 air supply pipe 3 burner head 4 mixing nozzle of the burner head 3 5 Mixing chamber of the mixing nozzle 4 D Inside of the mixing chamber d Inside the mixing nozzle

Claims (6)

Claim 7,) gas burners, in particular natural gas burners for glass melting plants, consisting of an air and gas supply pipe, characterized in that it As a parallel flow burner with an inner supply pipe (1) and an external air supply pipe (2) is formed and on the outer air supply pipe (2) in front of its opening Burner head (3) with mixing nozzle (4) is arranged and the annular gap between the inner gas supply pipe (i) and the outer air supply pipe (2) sized accordingly is that the amount of air supplied as primary air is 6 ... 8% of the combustion air requirement amounts to. 2. Gas burner according to item 1, characterized in that the inner Gas supply pipe (1) protrudes beyond the collar of the äuße Ren air supply pipe (2) and the inner diameter of the inner gas supply pipe (1) a flow velocity of the fuel gas in the range of 40 ... 65 m / s, preferably 57 m / s, and the inner diameter of the outer air supply pipe (2) a flow velocity of the primary air in the range of 30 ... 60 m / s, preferably 39 m / s. 3. Gas burner according to item 1, characterized in that the transition from the mixing chamber (5) to the mixing nozzle (3) with a ratio of the inner diameter D. : d equals 1.2 ... 2: 4 is conical and the inside diameter (d) of the mixing nozzle (4) of the burner head (3) depending on the inner diameter of the air (1) and Gas supply pipe (2) is dimensioned so that the Combustion gas / pressure relief mixture A flow speed of 30 ... 60 m / s, preferably in the Misoh nozzle (4) of 51 m / s. 4. Gas burner according to item 1 - 3, characterized in that the fuel gas in the inner gas supply pipe (1) a pressure of preferably 3000 Pa and the primary air have a pressure of preferably 5000 Pa in the outer air supply pipe (2). 5. Gas burner according to item 7-4, characterized in that the burner head (3) is arranged interchangeably on the outer air supply tube (2). 6. Gas burner according to item 1 - 5, characterized in that the on The amount of air supplied as primary air to the fire side of the glass melting system on the The side of the glass melting tank facing away from the fire is used as cooling air.