DE102005001907A1 - Method for burning fuel in heating installation involves fuel and lower-stoichiometric air quantity is supplied over burner and remaining quantity of combustion air is supplied to burner in counter current against air current - Google Patents

Abstract

The method involves burner (6,7,8), blowing out perpendicular to the axis of heating space in a burner front wall of the combustion chamber. The fuel and lower-stoichiometric air quantity is supplied to burner and remaining quantity is supplied directly to heating space (2) in counter current, against air current supplied over the burner. An independent claim is also included for the heating installation.

Description

The The invention relates to a method for burning fuel in a firing plant with a firebox with at least one perpendicular to Firebox axis blowing burner in a burner front wall of the Firebox and a flue gas outlet at the top of the firebox, at the fuel and a stoichiometric amount of air over the Burner and the rest of the quantity the amount of combustion air are fed directly to the combustion chamber and optionally a portion of the remaining amount of combustion air between the burner area and the flue gas outlet into the furnace blown.

Such a method for burning a flowable fuel in particulate, liquid, gaseous or powdered form, such as coal dust, in a front burner with multiple burners is from the DE 34 03 981 C2 , Sp.3, Z.26-32.

The substoichiometric part of the combustion air is supplied in the usually used jet burners as primary air (transport air for the fuel) and as secondary or shell air and optionally as tertiary air, as for example in the DE 36 21 347 C2 In the known Verfahrer the remaining amount of the combustion air is supplied so that they must pass on the way to the Feuerraumauslaß the firebox area in which the burners are arranged, and that there is substantially in the region of the tips of the burners emerging flames flows. The remaining amount of the combustion air can be supplied by air feeds in the slope of the furnace down the funnel final, in the straight wall portion of the furnace below the burners or at the bottom of the funnel. The place of installation of the air ducts and the speed at which the air is blown, are coordinated so that the air jets reach the region of a lying in the longitudinal axis de firebox and parallel to the firebox walls level and only then meet with the ends of the flames , ie flow into them substantially vertically from below.

The remaining amount the combustion air is the individual in the known method Burner is not assigned individually, causing an uneven supply of oxygen the individual burner, especially at the flaming end, comes. It takes place also a worse mixture and homogenization of the individual Flames flowing out Flue gases. The burnout in the single flame is not enough.

It the object of the invention is to improve the generic method in such a way that the oxygen supply of the individual flame and thus the Burnout is improved.

These Task is solved in a generic method in that the rest of the quantity the combustion air to the burner in countercurrent direction as counter air to the over supplied to the burner air is supplied.

The for the individual burner each required remaining amount of combustion air So is the burner or with multiple burners in a burner level directly assigned to the individual burner level. The counter air flow evened out several burners in a burner level the distribution of air in the burner level and ensures a homogeneous mixing of the flue gases in the discharge area of the flames. It comes for training a secondary Flame downstream of the burner associated primary flame, resulting in a homogenization of the heat release and leads to an improvement in combustion.

By the gradation of the combustion air (burner air and counter air) on the Burner also enters a NOx reduction on.

Around the formation of the secondary flame To improve, counter air is preferably based on the burner injected laterally offset.

There the flame of the burner in the direction of the outflowing flue gases upwards It is advantageous if the counter air is based on offset the burner height is blown to the other combustion air of the flame tip supply.

The Invention is also directed to a firing plant for carrying out the Method with a combustion chamber including at least one burner front wall and one of those opposite Rear wall, at least one arranged in the burner front wall and perpendicular to the furnace axis Ausblasenden burner for the injection of fuel and air in a stoichiometric amount in the firebox, an outlet for flue gas at the top of the firebox and at least one inlet for more Combustion air into the combustion chamber.

The furnace is inventively characterized in that in the rear wall at least one burner associated with the counter air nozzle is arranged.

Preferably is the counter air nozzle arranged laterally offset relative to the burner in the rear wall and / or is the counter air nozzle offset in height relative to the burner in the back wall arranged.

In many front firings, several burners are arranged at a distance next to one another in at least one horizontal plane of the firebox (cf. DE 36 21 347 C2 ). Then it is expedient that a plurality of counter air nozzles are arranged in the rear wall in at least one horizontal plane.

The Number of counter air nozzles in a plane does not have to to match the number of burners in a plane. It can e.g. for a Burner pair in the burner level only one of the two burners assigned Gegenluftdüse be provided. It is also possible that at n burners in a burner level in the associated Gegenluftdüsenebene n + 1 are provided.

The claims 8-10 judge to further embodiments of the furnace.

The The invention is explained in more detail below, for example, with reference to the figures. It shows:

1 a schematic vertical section through the combustion chamber of an embodiment of the front-firing system according to the invention,

2 a horizontal section through the combustion chamber of a front burner according to the invention after 1 along the line II in 1 .

3 an isometric representation of the firebox and

4 a view of the burner front wall or rear wall of the furnace.

In the burner front wall 1 of the firebox 2 with a flue gas outlet 2a at its upper end are in three superimposed horizontal planes 3 . 4 , and 5 three burners each 6 . 7 respectively. 8th (n burner) arranged, are supplied via the flowable fuel, such as coal dust, and a substoichiometric amount of combustion air. The burners are designed as jet burners, preferably as round burners.

In the burner front wall 2 opposite rear wall 9 are in three levels one above the other 10 . 11 and 12 four counter air nozzles each 13 . 14 respectively. 15 (N + 1 counter air nozzles) arranged, from which counter-air jets GL emerge. The levels 10 . 11 and 12 are opposite the assigned burner levels 3 . 4 respectively. 5 upwards so offset in height, that the upwardly deflected by the flue gases counter air jets 14a . 15a and 15a at an adjusted altitude between the front ends of the upwardly deflected flames 6a . 7a and 8a the burner 6 . 7 . 8th can occur. The four each counter air nozzles, for example 13 a level eg 10 are based on the location of their associated burner eg 6 offset laterally such that the rays of the two inner counter air nozzles can enter between two flames and the two outer counter air jets flow out laterally to the two outer flames.

Like from the 2 can be seen, formed on each burner, a primary flame PF and under the influence of the counter air jets GL a secondary flame SF with backflow of counter air, whereby a homogenization of the heat release is achieved. A uniform, comparatively low temperature profile is achieved in front of the convective heating surfaces following the burner region due to the more intensive combustion in the burner region with high heat absorption and good mixing in the individual burner planes.

The counter air nozzles 13 . 14 and 15 in their assignment to the burners 3 . 4 and 5 uniform the distribution of air in the burner levels described above and ensure a homogeneous mixing of the flue gases in the outflow of the flame, whereby an optimization of the burnout is achieved. By grading the combustion air (burner air and counter air) in each burner level also occurs a NOx reduction.

Furthermore, in the wall areas of the Feueraumfrontwand form 1 and the firebox back wall 9 connecting side walls 16 and 17 oxygen-enriched gas curtains LS1 and LS2. The gas curtain LS1 alone formed by a primary flame PS would not adequately protect the sidewall. The oxygen enrichment in the near-wall zones reduces the tendency to fouling in the sidewall area (but also in the back wall area via gas curtain LS3).

Above the burner area are in the burner front wall 1 five burnout air nozzles 18 and in the back wall 9 four burnout air nozzles 19 arranged for burn-out air ABL, the plane of the burn-out air nozzles 19 is higher than the plane of the burnout air nozzles 18 , The nozzles 18 are opposite the nozzles 19 laterally offset and the nozzles 19 lie in the vertical planes of the counter air nozzles 13 ; 14 ; 15 for the injection of the counter air GL. The supply of Ausbrandluft ABL is not necessarily neces sary sary.

The inventive method or the front-firing system according to the invention can also be realized in existing plants by adding a part the over the burner or burners supplied combustion air locked and this air is over retrofit Counter air nozzles in the firebox is blown.

Claims (10)

A method of combusting fuel in a furnace having a furnace having at least one burner perpendicular to the furnace axis in a burner front wall of the furnace and a flue gas outlet at the top of the furnace, wherein the fuel and a sub-stoichiometric amount of air are above the burner and the remaining amount of combustion air be fed directly to the furnace and optionally a portion of the remaining amount of combustion air is blown between the burner area and the flue gas outlet into the furnace, characterized in that the remaining amount of combustion air is supplied to the burner in the counter-current direction as counter-air to the air blown through the burner. Method according to claim 1, characterized in that that counter air blown laterally offset relative to the burner becomes. Method according to claim 1 or 2, characterized that counter air is blown in height with respect to the burner. Furnace for carrying out the method according to one of claims 1-3 with a combustion chamber ( 2 ) including at least one burner front wall ( 1 ) and one of these opposite back wall ( 9 ), at least one arranged in the burner front wall and blowing out perpendicular to the furnace axis burner ( 6 ; 7 ; 8th ) for the injection of fuel and air in a stoichiometric amount into the combustion chamber, an outlet for flue gas at the upper end of the combustion chamber and at least one inlet for further combustion air into the combustion chamber, characterized in that in the rear wall ( 9 ) at least one burner ( 6 ; 7 ; 8th ) associated counter air nozzle ( 13 ; 14 ; 15 ) is arranged. Furnace according to claim 3, characterized in that the counter-air nozzle ( 13 ; 14 ; 15 ) relative to the burner ( 6 ; 7 ; 8th ) laterally offset in the rear wall ( 9 ) is arranged. Furnace according to claim 4 or 5, characterized in that the counter-air nozzle ( 13 ; 14 ; 15 ) relative to the burner ( 6 ; 7 ; 8th ) offset in height in the rear wall ( 9 ) is arranged. Furnace according to at least one of claims 4 to 6, characterized in that in juxtaposition of several burners ( 6 ) at a distance in at least one horizontal plane ( 3 ) of the burner front wall ( 1 ) in the back wall ( 9 ) in at least one horizontal plane ( 10 ) Counter air nozzles ( 13 ) are arranged. Furnace according to at least one of claims 4 to 7, characterized in that the horizontal plane ( 10 ) of the counter air nozzles ( 13 ) is higher than the horizontal plane ( 3 ) of the associated burner ( 6 ). Furnace according to at least one of claims 4 to 8, characterized in that the counter-air nozzles ( 13 ) relative to the burners ( 6 ) are arranged laterally offset. Furnace according to at least one of claims 4 to 9, characterized in that above the burner ( 6 ; 7 ; 8th ) at least one combustion air nozzle ( 18 ; 19 ) in the burner front wall ( 1 ) or the back wall ( 9 ) is arranged.