DE1060082B - Burner for the optional combustion of fuel gases with different calorific values - Google Patents

Description

Burner for the optional combustion of different fuel gases Calorific value The invention relates to a burner for optional combustion of fuel gases with different calorific values at which the combustion participants the combustion chamber in this way via essentially concentrically arranged nozzles be supplied that the outflow cross-sections for the combustible media to the are adapted to changing calorific value.

Gaseous fuels are often used to heat heating furnaces of all types used, e.g. B. Blast furnace gas (furnace gas), long-distance gas, town gas (coal gas), generator gas and various gas mixtures. It often happens that a company normally does the fuel used (failure of the gas supply, etc.) or that at times other fuels are available cheaply or from other fuels Reasons the fuel is changed.

In these cases, either other ovens have to be put into operation or the existing ovens in time-consuming work on the calorific value of the newly delivered Fuel. Such a change creates difficulties, there z. B. natural gas with about 9000 kcal / cbm almost ten times and long-distance gas with 4000 kcal / cbm has more than four times the calorific value of blast furnace gas with 950 kcal / cbm.

There are already gas burners for the optional combustion of high-strength gas and lean gas known, in which the concentric in the annular air nozzle built-in gas nozzle connected to the lockable high and low gas supply lines and a rotatable tube provided with openings is arranged in the gas nozzle, which, when turned, creates a connection with the gas nozzle.

Gas burners of this type, in which the outflow cross-sections of the combustible Media are within the actual combustion air, have the disadvantage that by the amount of air that is kept essentially constant compared to the Gas amount changing calorific value different flame properties occur compliance with the prescribed combustion characteristics of the furnace is practical impossible and can endanger the operation.

The invention aims to avoid the disadvantages mentioned.

According to the invention, a burner for the optional firing of fuel gases of different calorific values is provided, in which nozzles are arranged concentrically to one another, two of which lead gas and one air, characterized in that the inner and outer nozzle to gas feeds and the middle nozzle to an air feed connected and that switching means are provided which can be adjusted so that the gas with a lower calorific value is fed through both the inner and outer nozzle, while when firing gas with a higher calorific value, the feed line to the outer nozzle is even more so until it is completely closed is throttled, the higher the calorific value of the gas.

It is preferably provided that when using flow media higher calorific value, these media are first mixed with air.

A particularly suitable embodiment of the invention is a burner, in which three surrounding nozzles are provided, of which the supply lines can be optionally connected to the outer and inner nozzle and in the supply line a device is arranged for the nozzle lying between them which is suitable is to give the flowing medium a whirling movement (swirl movement).

Further features and advantageous embodiments of the invention are explained in more detail using two exemplary devices.

Fig. 1 shows a first embodiment of a device for Practice of the method according to the invention; Fig. 2 shows a second embodiment In Fig. 1 is a device according to the invention with a nozzle arrangement 1, a supply line 2 for gases with a higher calorific value (rich gases), a supply line 3 for gases with normal calorific value (standard gases) and a supply line 4 for gases with lower values Calorific value (lean gases) shown. Air is supplied via line 5. In all four Supply lines are shut-off devices 12, 13, 14 and 15.

The rich gas supply line 2 is above a mixing device 6 and Tube 7 with a centrally arranged Nozzle channel 9 in connection. The mixing device is via pipe 8 finite throttle valve 18 with the air supply line 5 in connection.

The standard gas supply line 3 is at the point 16 with the central one Nozzle opening 9 connected. Next has line 3 at point 17 with a throttle valve 20 a connection to line 4.

The arm gas supply line 4 is above the throttle valve 19 with a nozzle channel 11 in connection. The air supply line 5 leads to a nozzle channel 10, which is arranged between the nozzles 9 and 11. Nozzle channel 10 has a device 32, which gives the air entering the combustion chamber 21 a controllable vortex movement (Twist movement) can give. Combustion chamber 21 is surrounded by burner block 22.

Four cases can be used for the operation of the device according to FIG. 1 A distinction can be made between: 1. A gas with a normal calorific value is used (usually calorific value of the long-distance or town gas with about 4000 throttle valves 18 and 20 are closed. The shut-off devices 12 and 14 are closed, 13 and 15 are open. The gas arrives via pipe 7 to the nozzle channel 9. Combustion air is supplied via air supply line 5 and Swirl device 32 is fed to the nozzle channel 10. When entering the combustion chamber 21, the gas is detected by the air vortex indicated by reference numeral 23 and burned in the vertebral core.

2. Gas with a lower calorific value is used (e.g. blast furnace gas or mixed gases of all kinds). The shut-off devices 12 and 13 are closed, 14 and 15 open. Throttle valve 18 is closed, 19 is open.

The throttle valve 20 is open so far that the nozzle channel 9 is fully pressurized and that amount of gas. which exceeds the swallowing capacity of the nozzle channel 9 is fed to the nozzle channel 11. The air vortex 23 now offers the gas two mixing areas: an inner, relatively small area and an outer, larger area. This enlargement of the effective mixing surface ensures that the flame has practically the same properties as under 1 with a lower calorific value and a larger amount of gas supplied. The inertia of the lean gas is compensated for by more intensive mixing.

3. Gas with a higher calorific value is used (e.g. natural gas). The shut-off devices 13 and 14 and the throttle valves 19 and 20 are closed. The shut-off devices 12 and 15 and throttle valve 18 are open. The supplied gas enters the mixing device 6 and is intimately mixed here with air that is brought in from tube 8, see above that the gas now reaches the nozzle channel 9 with the normal calorific value of about 4000 and here. as described under 1, fed into the combustion chamber for combustion will.

4. Gases of different calorific values are burned at the same time.

By appropriately setting the shut-off devices 12, 13, 14 and the Throttle valves 18, 19 and 20 are taken care of. that the nozzle channel 9 with a The mixture is fully pressurized, the calorific value of which is as close as possible to that of the standard gas while the remaining amount is fed in via channel 11. Fig. 2 shows an apparatus according to the invention, which is particularly suitable when the combustion gas via a single supply line 3 'is supplied and the gas is different at different times Has calorific values. In the embodiment of FIG. 2, it is assumed that the supplied Gas has at most the calorific value of the standard gas.

A rotary valve 24 arranged in the supply line 3 'is shown in FIG drawn in the position that it assumes when standard gas is supplied. The gas flows by the rotary valve 24 via feed 25 to the central nozzle channel 9 and is then burned in the combustion chamber with the swirling combustion air.

If gas with a lower calorific value is to be burned, the rotary slide valve 24 is rotated counterclockwise, and a more or less large opening for the gas flowing into the nozzle channel 11 is also opened. The rotary valve 24 is set up in such a way that the central nozzle channel is always fully pressurized and the amount of gas that exceeds the ability of the central channel to swallow is fed to the nozzle channel 11. The combustion then takes place in accordance with case 2 mentioned above.

The examples described are based on the assumption that the nozzle outlet supplied combustion air receives a vortex movement. This has proven to be useful proven, because it always guarantees a safe ignition. But it can also be advantageous in all three nozzle channels or in one or both of the swirl devices are to be provided for the nozzle channels provided for the gas supply. The sense of rotation the swirl movement in the gas and air ducts can be parallel or opposite be directed, and you can thereby influence the mixing effect and flame formation as desired.

The invention is not limited to the exemplary embodiments described limited. So z. B. can also be provided that the inside or outside of the air vortex arranged gas outlet channels are divided as desired.

Claims (1)

PATENT CLAIMS: 1. Burner for the optional combustion of fuel gases different calorific values, at which nozzles are arranged concentrically to one another of which two carry gas and one air. characterized in that the inner and outer nozzle connected to gas supply lines and the middle nozzle connected to an air supply system and that switching means are provided which are adjustable so that gas with less Calorific value is supplied through both the inner and outer nozzle, while when firing gas with a higher calorific value, the feed line to the outer nozzle the higher the calorific value of the, the more it is throttled until it is complete Gas is. z. Burner according to Claim 1, characterized in that three gas connection pieces are intended for gases with three different calorific values. 3. Burner according to claim 2, characterized in that only the connection piece for gas with the lowest Calorific value by means of the switching means with the outer, however, all three supply lines can be connected to the inner nozzle. 4. Burner according to claim 2 or 3, characterized characterized in that in the supply line for the gas with the highest Calorific value leads into an air branch line. 5. Burner according to claim 4, characterized in that that a shut-off device is arranged in the air branch line. 6. Burner according to claim 1 or 4, characterized in that only one gas connection piece, the one with both Nozzles are in communication, and switching means are provided, depending on the calorific value of the gas, the cross-section of the supply line to the outer nozzle with increasing size narrow the calorific value. 7. Burner according to one of claims 1 to 6, characterized in that that the media feeds into the burner housing at an angle to the burner axis take place. B. Burner according to one of claims 1 to 7, characterized in that Provided in the air leading nozzle additional means for generating a swirl are. Publications considered: German Patent No. 395 423.