DE2002407A1 - Burner device for burning gases - Google Patents

Description

BURNER DEVICE FOR FIRING GASES The present invention relates to burner equipment for the combustion of gases in boiler systems.

There are currently known burner devices for the combustion of gases, in the housing of a vortex for the Iluft and at least one pipe for the gas supply, which is also with a is provided, (see W. Maslow "Operation of boiler systems in the iron and steel industry", Moscow, 1965) - are housed.

The vortices of both air and gas are in known Facilities executed immovable, which does not allow the twist strength from To regulate gas and air flow as well as to change their mutual direction of rotation, whereby the pipe for the gas supply is designed to such an extent that a regulation the turbulence path where the gas and air flows are mixed, , is excluded. The known devices do not allow the thermal To regulate the values of the flame (luminosity and temperature) during operation.

However, there are a large number of systems in which the fire control depends on the load and technological requirements changes.

There are also systems that use several types of fuel with completely different ones Consume thermal data of the flame. For example, one burns at Boiler units in Eisenhütjen works simultaneously in different ratios during 24 hours two or three types of gaseous fuel with very different types of fuel thermal flame values, namely blast furnace, coke oven and natural gas. In these cases has the transition from one type of material to another or the change in the proportion of the I components in the fuel during combustion their mixing us @ a strong Change in the heat absorption ratio of the convective and shield heating surfaces to follow.

This causes a rapid deterioration in working conditions ;he for the metal of the steam superheater, an increase in the control range for the Temperature of the superheated steam as well as an increase in the temperature of the exhaust gases, which reduces the drive safety of the boiler systems and increases their costs.

The purpose of the present invention is that. Elimination of the said Disadvantage.

The invention lies; the task is based on a burner device to develop the combustion of gases, in which the vortex is for both the gas as well as for the air are designed in such a way that they reduce the swirl strength of the gas and Air flow as well as its direction of rotation and vortex path can change.

This object is achieved in that in the burner device for the combustion of gases, in the housing of which a vortex for the air and at least one pipe also provided with a vortex for the gas supply are accommodated, according to the invention, each of the vortexes as a supply Stellelement @@, which allows to change the introduction point for gas or air flow as well as the cross section of the channel at the introduction point, whereby the adjustment elements are arranged to be rotatable to change the direction of rotation of the air and gas flow.

This technical solution makes it possible to adjust the heat values of the flame by changing the swirl strength of the gas and air flow and by reducing the inlet point when the vortex is swiveled one or the other side in white to regulate the limits. The disorder of the vortices with the possibility of mutual adjustment allows one vortex to be adjusted against the other or their joint adjustment or opposite side, whereby the direction of rotation of the air and gas flow is changed.

It is expedient for each of the adjusting elements to have a pair of adjustable sheet metal blades housed within the housing are rigidly attached to axes of rotation.

Each of the adjustment elements can be in the form of one within the in the direction housing opened to the movement of the currents and coaxial with them located cylinder with a parallel to the longitudinal axis of the device Windows for the introduction of the air or gas flow.

Preferably, the window should not be in the cross-section <of the cylinder> less than a quarter of the. Circumference <> set <To change the vortex path of gas and air, it is expedient to make the pipe for the gas supply telescopic.

The invention increases the efficiency of the furnace systems, Improves the working behavior of the heating surfaces, reduces the control range for the temperature of the superheated steam and the temperature of the exhaust gases themselves, which increases the efficiency and operational safety of the boiler systems.

The burner device finds special Used in boiler systems that consume two to three types of gaseous fuel (blast furnace, coke oven and natural gas). In this case, the burner device allows the control range for the temperature of the superheated steam to be greatly reduced by setting optimal thermal characteristics of the flame depending on the combustion gas or the composition of the gas components, to improve the working behavior of the heaters, to reduce the temperature of the exhaust gases etc. This enables parts of the steam superheater to be manufactured from inexpensive carbon steels instead of expensive alloy steels, as is currently the case. Lich is, the increase in the efficiency of the boiler aer operational safety and the reduction of costs.

The invention is intended below to sand the description of an example with reference to the accompanying drawings - will be explained in more detail; it shows: Fig. 1 the burner device according to the invention with vortices in Shape of a cylinder with a window in the burner niche of the partially shown Boiler system is arranged in section; Fig. 2 section along the line II-II of Fig. 1; Fig. 3 cross section through the burner device with vortices in the form of Shovel sheet metal; Fig. 4a, b schematic representation of the positions of the vortex of the first type in the burner device depending on the direction of rotation of the gas or Air flow.

The burner device for burning gases contains a housing 1 (FIG. 1) with a window 2 for the air supply and a swirler, which is an adjusting element 3. Two coaxial tubes 4 and 5 lie coaxially within the housing 1. One of them, namely the (outer) tube 4, is provided for the gas supply and has a swirler in the form of an analogous to the adjusting element 3 in the housing 7 arranged adjusting element 6, which represents part of the tube 4. In the housing 7 there is an opening 8 for the gas supply.

Through the (central) pipe 5, another type of gaseous fuel is supplied without turbulence so that when through the pipe 4 blast furnace gas, is fed through the pipe 5 at @ coke oven, natural gas or a mixture of natural and coke oven gas.

The (central) tube 5 can be used as a jacket for the assembly of a Oil atomizer which can be used as a window to observe the combustion process. In In this case, the other type of gaseous fuel can pass through an annular gap between the pipe 4 and an additional pipe located coaxially to it (not indicated in the figure) are fed.

-Jcdes of the adjustment elements 3 and 6 is one in the direction of movement of the flows of open cylinder 9 (Fig. 2) with a parallel to the longitudinal axis of the Facility lying window 10. These cylinders 9 ground inside the housing 1 or 7 mounted coaxially to these. In cross section, the windows 10 are the cylinder 9 not wider than a quarter of the circumference of the latter,. what the training guaranteed by non-deformed air and gas swirl flows with minimal swirl turbulence.

The vortex adjusting elements 3 and 6 (Fig. ') Can be in the form of a pair of sheet metal blades 11 (FIG. 35, which are mounted on the axis of rotation 12 or 13 are rigidly attached.

Such a design of the swirler enables the Entry point for gas and air flows as well as the cross section of the channel 14 the. Entry point of the currents.

The elements 3 and 6 are, if they are in the form of cylinder.

dern 9 (Fig. 2) are executed,. : zar mutual twisting provided with drives 15 and 16 (Fig.I). When executing the adjustment elements 3 and 6 in the form of a pair of sheet metal blades 11 (Fig. 3) is a pivoted from these by its own drive (not indicated in the figures).

The arranged with the possibility of mutual pivoting Swirlers make it possible to change the direction of rotation of the gas and air flow.

The tube 4 for the gas supply is designed as a telescopic tube, which allows a different length of the turbulence path for gas and air flow. The telescopic part 4 of the tube 4 is by means of a pull rod 17 and a screw gear 18 postponed.

The work of the present Drennereinriehtung is in relation to the tJirbler of the first type described.

The burner device is in the burner niche 19 of the furnace mounted by the boiler or furnace.

The gas passes through the window 8 in the housing 7 into the vortex cylinder 9 and is directed through the pipe 4 in the direction tung aer @@ sche-forwarded, the air passes through the window 2 in the housing 1 into the vortex cylinder 9, where a mixing of the air and gas flow takes place on the route from the mouth of the tube 4 to the mouth of the burner niche.

The change in the thermal data of the flame in the event of a change the fire control in a furnace or boiler system (change in the technological process in the furnace system, the load as well as changes to the ones to be burned gaseous fuel type or the proportions of the gas components in their mixture a boiler system) by turning the cylinder 9 to the right (Fig. 4b) or on the left (Fig. 4a) executed with the aid of the drives 15 or 16, the Angle of rotation of the cylinder 9 by the required swirl strength of the air or gas flow is determined, which in turn depends on the cross section of the channel 14, the through the edge eS ens-ers 10 of the cylinder 9 and the nearest wall of the housing is formed.

The position of the cylinder 9 indicated in FIG. 2 is guaranteed the supply of a twist-free air or gas flow.

In the execution of the vortex in the form of two swiveling sheet metal blades ll (Fig. 3) is the twist strength by pivoting one of the sheet metal blades regulated. With a simultaneous opposite adjustment of the two sheet metal blades a swirl-free air or gas flow is formed.

To change the direction of rotation from. Gas and air flow become the vortex - Adjusting elements 3 and 6 - pivoted to one side or the other, it is also possible to pan just one of these.

To change the flow path for gas and air, the telescopic Part 4 'of the tube 4 along the axis the establishment moved.

When the gas and air flow does not swirl and the telescopic one Part 4 . of the tube 4 into which Çre rr.-maximally is pushed, the flame points the greatest length.

When the gas and air flow are at their maximum in opposite directions swirled and the telescopic "eil 4: r ,.

Pipe 4 <> is pushed into the niche <not>, the flame has the shortest length.

By determining the swirl strength and the mutual direction of rotation of gas and airflow as well as the swirl path changes, you get a variety of different thermal values of the flame.

Claims (5)

PATENT CLAIMS 1. Burner device for burning gases in their housing a vortex for the air and at least one with a vortex if necessary Pipe for the gas supply are housed, d u r c h e k e n n -z e i c h n e t that each of the vortices as adjusting elements (3 and 6) trained @ that it allows the entry point for gas and air flow as well as the cross-sectional of the channel (14) to change at the point of introduction ,, 'whereby the adjusting elements (3 and 6) to change the direction of rotation of the air and gas flow <> are rotatably arranged. 2. Burner device according to claim 1, d a d u r c h g e k e n n. z e i c h n e t that each of the adjusting elements (3 and 6) has one within the in Direction of movement of the currents housed open housing (1 or 7) and coaxially to this housing (1; 7) located cylinder (9) with a to the longitudinal axis the device running parallel windows (10) for the introduction of air or @ Gasstron represents 3. Burner device according to claim 2 ,,, d a d u r; e h g e k It is noted that <in cross section> «of the cylinder (9)» is the window (10) <> is not @ wider than a quarter of the circumference «». 4. Burner device according to claim 1, characterized in that Sedes the Verstellele @@ @@ te (3 and 6) as a pair of sheet metal blades (11) austJell the are rigidly attached to axes of rotation (12 and 13). 5. Burner device according to claim 1 to 4, d a d u r c h g e k It is noted that the pipe (4) for gas supply in order to change the flow path for gas and air is telescopic.