DE102008009372A1 - Regenerative porous burner for e.g. heat-treating furnace in steel industry, has cylindrical housing, in which porous material is arranged, where housing is in sections made from ceramic or fireproof material - Google Patents

Abstract

The burner (1) has a cylindrical housing (2), in which a porous material (6) is arranged, where the housing is in sections made from ceramic or fireproof material such as refractory concrete. The porous material serves as heat storage, which is thermally rechargeable during sucking of hot exhaust gas (A) from a combustion chamber (B). The exhaust gas flows in a direction of supply/exhaust air ducts (L1, L2, L4, 5) by a burner opening (1a) and the porous material. The burner opening forms a front side, and a cylindrical wall is made of refractory concrete. An independent claim is also included for a furnace comprising a regenerative porous burner or a regenerative porous burner device.

Description

The The invention relates to a regenerative pore burner with a housing, in a pore material is arranged.

at The systems previously available on the market are regenerative burners basically off two or more single burners, taking under burners in this case the combination of the two spatially separate components burner head and regenerator too understand is. In a regenerative burner system is located one burner or one half each a burner group in the "firing mode". The other Brenner or the second half the burner group is or is in the so-called "regenerative mode". The latter means that the exhaust gases of the firing burner over those in the "regenerative mode" located Burner heads / regenerators be sucked off and there the overwhelming Part of their heat content to the heat exchanger mass submit. After a predetermined time of usually 60 seconds the switch, and the previously in the "regenerative mode" located burner fire, and the previously operated in the "firing mode" burner are operated in "regenerative mode". there the combustion air takes the previously stored in the regenerators exhaust heat on. this leads to to a significant increase in efficiency or to a considerable Fuel savings over Cold air burners or hot air burners with recuperative air preheating.

Regenerative burners Among others, in the steel industry at heat treatment furnaces as well used in the aluminum industry on smelting furnaces. In both cases acts it is burner with high forward momentum and accordingly long flame, which are installed in the side wall of the furnace. Especially from the steel industry comes an increasing demand after pure radiant burners with a correspondingly flat flame, which work according to the regenerative principle and in the furnace roof to be installed. Such burners are not yet known this market gap should through the regenerative pore burners be covered.

porous burner consist essentially of a two-layered pore body. The One layer serves as a flame holder and the second layer as a flame barrier. The pore body is in a housing arranged, wherein provided above the pore body, a mixing space is where the fuel and the air are mixed together. The housing is usually made of a heat-resistant metallic material. The burning is predominantly within the pore layer, which serves as a flame holder. These Property leads to the fact that pore burners are to be regarded as radiant burners. adversely in the known pore burners is that they are cold Combustion air operated and the exhaust heat either unused directly into the atmosphere escapes or over special heat exchanger systems recovered must become. Another disadvantage is the fact that pore burners the previous design in a metallic housing from correspondingly high quality Materials are embedded.

task the present invention is to provide a regenerative burner, the very high temperatures and the advantages of a Porcine burner offers.

These Task is according to the invention with a Regenerative porous burner solved with the features of claim 1. By the advantageous Choice of housing material will have a long life while being more cost effective and made easier. The regenerative pore burner according to the invention can easily for all temperature ranges are used, which are usually used on ovens in the Steel industry to be driven.

At the Regenerative pore burner is at least the part of the housing a ceramic or refractory material, in particular refractory concrete, which is in direct contact with the interior of the furnace. The use of refractory concrete also has the advantage that the thermal Expansion of the housing is equal to the pore material. This does not require expensive and expensive Fiber layer between the pore material and the Gehäuseinnenwandung to be ordered.

through the regenerative porous burner according to the invention becomes the heat energy stored in the exhaust gas for heating the regenerative pore burner operated in the regenerative mode or whose pore material used, which then in the "firing mode" to warm up the fed to cold combustion air becomes. The volume of the pore material is correspondingly large, so that one sufficient amount of heat in the pore material for the firing mode interval is ready. By the regenerative pore burner according to the invention can Thus, a significant energy savings can be achieved without an additional one Apparative effort is necessary.

Of the Regenerative pore burners according to the invention can be used advantageously in existing furnace systems. He Can continue with commercial Ignition and monitoring devices as well as commercially available Components for the gas and air supply are equipped.

Advantageously, the housing of Feuerfestbe clay surrounded by a coat of sheet steel (normal steel). This jacket serves as a casting mold during the production of the refractory concrete housing. On the metal jacket all connection flanges are also attached or molded. These flanges serve z. B. for connection of the regenerative pore burner on the furnace and for the supply of combustion air, which also serves as an exhaust pipe. Furthermore, there is a connection flange for the gas supply line.

The ignition device Can in conjunction with the control electronics as a monitoring device for the Flame can be used.

The The invention also claims an oven in which the regenerative pore burners of the invention are arranged.

following we explained the invention with reference to a drawing.

The drawing shows an oven OF which has side walls OF _S and a furnace top OF _D. In the furnace roof OF _D two recesses OF _DA are arranged. In these recesses OF _DA regenerative porous burner 1 used. The attachment of regenerative pore burners 1 on the furnace OF are not shown for the sake of clarity. It is possible in a simple embodiment to provide an outer circumferential collar or projections K, with which the regenerative pore burners 1 rest on the top of the furnace lid OF _D and are optionally fastened by means of fasteners in the furnace lid or the furnace roof.

The regenerative pore burners 1 usually have a cylindrical housing 2 on, which on its lower front side an inwardly directed collar 2a which has the pore burner opening 1a forms. The collar 2a holds the two-layer pore material 6 . 7 in the case 2 , Above the two-layer pore material 6 . 7 is the mixing room 3 arranged. Every regenerative pore burner 1 has a gas supply 4 on. In addition, at the top is a fresh air supply opening 5 formed, which simultaneously serves for the extraction of exhaust gases A from the combustion chamber B. A fresh air blower 9 via the line L ₃ and the valves V and the lines L ₁ and L ₂ pumps the fresh air into the openings 5 of the regenerative pore burner 1 , In the drawing is the left regenerative pore burner 1 in the "firing mode", whereas the right regenerative pore burner 1 is in "regenerative mode". This can be adjusted by the respective control of the valves V and the gas supply. By means of the ignition Z, the regenerative pore burner 1 be ignited so that a flame F enters through the opening OF _DA in the combustion chamber. The pore material 6 . 7 is constructed in two layers, with the upper layer 7 serves as a flame barrier. Via the line L ₄ , the exhaust gas by means of the blower 10 in the direction of the fireplace 11 promoted.

If the regenerative pore burner according to the invention 1 have a burning power of 300 kW, it is recommended that the clear diameter at the outlet side of the regenerative pore burner is about 300 mm. The strength of the cylindrical wall 2 the refractory concrete housing can z. B. about 150 mm, so that the outer diameter of the housing is about 600 mm. To z. B. cycle times in the range of 30 to 90 sec, a volume of pore material of about 28,000 to 35,000 cm ³ , in particular 33,000 cm ^{3 is} required.

It is possible, too, that each belonging together Burner of a regenerative pore burner device in a common casing to be ordered. This can further reduce the manufacturing costs and the space required.

by virtue of the fact that the material refractory concrete about the same Temperature expansion coefficient as the pore material used has no needed so far Ceramic fibers more between the housing and the pore material, as was the case with previous pore burners, needed. It let yourself with the regenerative pore burners according to the invention about the same efficiency as with conventional regenerative burners achieve, which so far as long flame burners installed in side walls become.

Claims (25)

Regenerative porous burner, with a housing in which a pore material ( 6 ), wherein the housing is at least partially made of ceramic or refractory material, in particular refractory concrete, is. Regenerative pore burner according to claim 1, characterized in that the pore material ( 6 ) is used as a heat storage, which is thermally rechargeable when aspirating hot exhaust gas (A) from a combustion chamber (B), wherein the exhaust gas (A) through the burner port ( 1a ) and the pore material ( 6 ) in the direction of the supply / exhaust air line ( 5 , L ₁ , L ₂ , L ₄ ) flows. Regenerative porous burner according to claim 1 or 2, characterized in that the housing is cylindrical, wherein the one end face the burner opening ( 1a ), wherein the cylindrical wall ( 2 ) is made of refractory concrete. Regenerative pore burner according to claim 1 or 2, characterized in that the housing has a circumferential housing wall which surrounds the pore material, wherein the cross section of the housing is rectangular or polygonal, wherein the burner opening is round, rectangular, in particular square, or polygonal. Regenerative porous burner according to claim 3 or 4, characterized in that the wall ( 2 ) an inwardly directed, in particular molded and / or encircling, collar ( 2a ), the burner opening ( 1a ) laterally bounded and on the inwardly facing side of the pore material ( 6 ) is present. Regenerative pore burner according to claim 5, characterized in that at the burner opening ( 1a ) facing away from the pore material ( 6 ) a particularly fine-pored flame barrier ( 7 ) is arranged, which the pore material ( 6 ) from a mixing room ( 3 ) separates. Regenerative porous burner according to claim 6, characterized in that in the mixing chamber ( 3 ) a gas supply line ( 4 ), where in the mixing room ( 3 ) also a supply / exhaust line ( 5 ) ends, which serves in burner operation as a supply line for fresh air and regenerator operation as an exhaust duct. Regenerative pore burner according to one of the preceding Claims, characterized in that the housing completely or at least partially made of ceramic material. Regenerative pore burner according to one of the preceding claims, characterized in that the pore material ( 6 ) serves as a combustion zone for burner operation and for heat storage in Regeneratorbetrieb. Regenerative porous burner according to one of the preceding claims, characterized in that in the region or in front of the burner opening ( 1a ) An ignition device (Z) for igniting the gas-fresh air mixture is arranged. Regenerative porous burner according to claim 10, characterized in that in the burner opening ( 1a ) limiting collar ( 2a ) or the wall ( 2 ) the ignition device (Z) at least partially, in particular in a channel, is arranged. Regenerative porous burner according to one of the preceding claims, characterized in that the wall ( 2 ) has a thickness of 100 to 200 mm, in particular 150 mm. Regenerative porous burner according to one of the preceding claims, characterized in that for a burner output of 300 kW, the burner opening ( 1a ) has an area of 500 cm ² to 900 cm ² , in particular 700 cm ² . Regenerative pore burner according to one of the preceding claims, characterized in that the pore material ( 6 ) For a 300 kW burner capacity, a volume of 28,000 cm ³ to 37,000 cm ³ , preferably a volume of 30,000 cm ³ to 35,000 cm ³ , more preferably a volume of 32,000 to 33,000 cm ³ . Regenerative pore burner according to one of the preceding Claims, characterized in that the pore material is alumina, silicon carbide or zirconium oxide. Regenerative pore burner according to one of the preceding Claims, characterized in that the regenerative pore burner is a flat flame burner is, whose flame burns substantially within the pore layer and hardly or hardly exits the pore layer. Regenerative porous burner according to one of the preceding claims, characterized in that the housing of a jacket made of sheet steel ( 8th ), which serves in particular as a casting mold for the refractory concrete. Regenerative porous burner according to claim 17, characterized in that on the jacket ( 8th ) Fastening means (K) for attaching the regenerative pore burner to a furnace (OF) arranged, in particular molded, are. Regenerative Porous burner according to claim 17 or 18, characterized in that at least one fastening flange for the connection of supply and / or exhaust pipes at the shroud (L _1, L ₂₎ is or are arranged. Regenerative porous burner device comprising at least two porous burners according to one of the preceding claims and a control device, characterized in that the control device valves on (V), such that the supply / exhaust air line (L _1, L ₂₎ of the porous burner in "Feuerungs Mode "with a fresh air supply source ( 9 ) and in the "regenerative mode" with an exhaust pipe (L ₄ , 11 ). Regenerative pore burner device according to claim 20, characterized in that the control device, the pore burner operates alternately in the "firing mode" and in the "regenerative mode", at least one pore burner at the same time in the "firing mode" and at least a pore burner in the "regenerative mode" switched is or is operated. Regenerative pore burner device according to claim 20 or 21, characterized in that four switching valves (V) the pore burners optionally with the fresh air source or the exhaust pipe connect. Regenerative pore burner device according to claim 20, 21 or 22, characterized in that the pore burners in a housing are made of ceramic or refractory concrete, with the individual outlet openings the burner separated from each other by means of at least one partition are. Furnace are equipped with at least one regenerative-porous burner or a regenerative porous burner device according to one of the preceding claims, characterized in that the or the porous burner in the ceiling (OF _D) or a side wall (OF ₃₎ of the furnace (OF) is arranged / , Oven according to claim 24, characterized in that the furnace roof each having a recess (OF _DA ) for a regenerative pore burner or at least one recess for a regenerative pore burner device, wherein a housing of a regenerative pore burner by means of radially outwardly projecting projections or by means of a radially outwardly directed circumferential collar (K) on the top of the ceiling (OF _D ) is supported.