WO1996038690A1

WO1996038690A1 - Burner

Info

Publication number: WO1996038690A1
Application number: PCT/AT1996/000098
Authority: WO
Inventors: Michael Nagl; Johannes Leopold Schenk
Original assignee: Voest-Alpine Industrieanlagenbau Gmbh; Deutsche Voest-Alpine Industrieanlagenbau Gmbh
Priority date: 1995-06-01
Filing date: 1996-05-29
Publication date: 1996-12-05
Also published as: ATA93895A; ZA964481B; AU5754896A; AT402440B

Abstract

In a burner (2) for burning fuels for use in a combustible gas-containing reactor, in order fully to burn the fuel supplied and make full use of the oxygen fed in, there are a central inner pipe (5) for supplying all the oxygen and an annular gap (9) surrounding the central inner pipe (5) and limited by an outer pipe (10) forming an outer wall of the burner (2).

Description

burner

The invention relates to a burner for the combustion of fuels with the aid of oxygen supplied by the burner, for use in a reactor containing combustible gases, in particular for use in a melter gasifier for the production of liquid raw or steel products, a coal gasifier or a melt reactor for oxidic and sulfidic non-ferrous metals.

A burner for use in a melter gasifier is known, for example, from EP-A-0 4X 1 955. This known burner has proven itself when used in a melter gasifier, since it permits satisfactory combustion of the fine-grained to dust-like solid fuel supplied, and furthermore has a long service life. The satisfactory combustion of the supplied solid fuel is ensured by the inert combustion gases formed when the fuel is burned. These combustion gases, which due to the special burner mouth design with little eddy formation of an oxygen jet which surrounds the fuel jet in a ring when it exits the burner mouth, largely prevent mixing of this oxygen jet with combustible gases in the reactor. However, it has been shown that, under different combustion conditions, partial combustion of combustible gases present in the reactor in which the burner is used cannot be ruled out, in particular if wear occurs at the burner mouth.

The invention has for its object to provide a burner, with which not only a good burnout of the supplied fine-particle to dusty fuel takes place, but also a burning of combustible gases contained in the reactor is reliably avoided, etc. with different operating conditions, so that the combustible gases contained in the reactor in their total amount are available for other processes taking place in the reactor. Furthermore, the oxygen supplied to the burner should only be used to burn the fuel supplied to the burner.

This object is achieved in that a central inner tube for supplying all the oxygen and an annular gap surrounding the central inner tube and delimited by an outer tube forming an outer tube are provided for supplying the fuels. A burner in which oxygen is introduced centrally and solid fuels are supplied via an annular gap surrounding the oxygen jet is known, for example, from EP-B - 0 129 921. In this known burner, in addition to the centrally introduced oxygen, a further oxygen jet is supplied every time, which peripherally surrounds the solid fuel in the form of a jacket. The disadvantage here is that this burner can only be used to a limited extent for a reactor in which combustible gases are present, especially since the combustible gases contained in the reactor can be partially burned by the peripheral and at least partially swirled oxygen jet. This would prematurely consume the oxygen which is actually intended for the combustion of the finely divided to dust-like fuels supplied via the burner, and the fuel supplied via the burner could no longer be completely burned out. To achieve complete burnout of the fuel, one would therefore have to increase the amount of oxygen significantly in this known burner. However, this in turn causes additional costs.

The peripherally supplied oxygen jet also causes a disturbance in the combustion zone formed by the centrally introduced oxygen and surrounding fuel due to its large angle of inclination towards the center. In addition, the wear and tear of the tip of the mouth greatly changes the direction and speed of the jet of the externally supplied oxygen, which leads to changed combustion conditions and also prevents the supplied fuel from completely burning out, which can only be partially compensated for by excessively high oxygen supply.

In any case, in the known burner, the processes which are to take place in a reactor containing combustible gases are disturbed, since some of the reactor gases are consumed by the oxygen and are no longer available for the processes to be carried out in the reactor.

According to a preferred embodiment, the inner tube of the burner according to the invention has a support tube made of heat-resistant steel, which is surrounded on the outside by the ceramic gap. In this way it is possible to keep the wear of the burner low and to achieve a long service life for the burner. A particular advantage of this preferred embodiment can be seen in the fact that the burner can have a slim design, especially since cooling of the inner tube supplying the oxygen is not necessary. The support tube ensures the mechanical strength and the ceramic tube ensures good abrasive properties and thermal resistance of the inner tube end. Burners are known from US Pat. Nos. 4,865,542 and 4,736,693, in which solid fuels are supplied through a central inner pipe and oxygen is supplied through an annular gap surrounding the inner pipe. Basically, the burner types are different from those according to the invention. In these burner types, the channels and the outlets for the oxygen-containing gas or oxygen are made of metal and have a ceramic coating. In this case, however, the ceramic coating faces the annular space or annular gap, in which the oxygen or the oxygen-containing gas is conveyed, so that the wear caused by the solid fuels is not reduced.

In order to achieve particularly good shielding of the combustion zone formed by the combustion of solid fuels with the oxygen supplied in the reactor from the combustible gases contained in the reactor, according to a further preferred embodiment the outer tube is hollow and at the burner mouth with an annular gap opening several adjacent to one another Provide outflow openings for the supply of protective gas.

A further increase in the service life can be achieved if the ceramic tube covers the support tube on its mouth-side end face, the inner tube advantageously projecting beyond the outer tube at the burner mouth.

The invention is explained in more detail below using an exemplary embodiment, the figure shown in the drawing illustrating an axial section through the front end of a burner.

1 denotes a wall of a reactor designed as a melter gasifier, through which a burner 2 projects into the interior 3 of the reactor, the burner 2 with its burner mouth 4 protruding a short distance beyond the inside of the wall 1 of the reactor.

The burner 2 has a centrally arranged inner tube 5, through which oxygen is supplied, which exits at an end opening 6 of the inner tube 5 at the burner mouth 4. The inner tube 5 is formed by a support tube 7 made of heat-resistant stainless steel and surrounded on the outside by a ceramic tube X. This ceramic tube 8 surrounds the support tube 7 at its front end in such a way that the front side of the inner tube 5 is covered with ceramic material.

An annular gap 9 surrounding the inner tube 5 on the outside serves to introduce fine-grained to dust-like solid fuels, such as coal dust, which are conveyed with a conveying gas, which is delimited by an outer casing 10 of the burner 2. This outer pipe 10 is preferably hollow and is used for the supply of protective gas, advantageously N ₂ or C0 ₂ , which has a number of adjacent outflow openings 1 1 via an annular gap opening cxler on the end face of the outer pipe 10 exits.

As indicated schematically in the figure, a combustion zone 12 is formed centrally at the burner mouth 4, which is largely shielded from the combustible gases located in the interior 3 of the reactor from the fine-grained to dust-like solid fuels which are supplied via the annular gap 9 . A particularly efficient shielding zone 13 from the combustible reactor gases is additionally achieved by the protective gas supplied externally, which makes it possible to use almost all of the supplied oxygen for the combustion of the solid fuels supplied via the annular gap 9 and to use up part of the oxygen by burning to avoid the combustible gases contained in the interior 3 of the reactor.

The burner 2 according to the invention can be used for different purposes and can be operated with different fuels. It is particularly suitable for the combustion of fine-grained to dust-like solid fuels, such as those used when burner 2 is used in a coal gasifier or melter gasifier.

However, the burner according to the invention can also be operated with liquid or gaseous fuels, for example waste fuels, which are also supplied via the annular gap 9.

Claims

Claims:

1. burner (2) for burning fuels with the aid of oxygen supplied by the burner (2), for use in a reactor containing combustible gases, in particular for use in a melter gasifier for the production of molten pig iron or steel precursors, a coal gasifier or A melting reactor for oxidic and sulfidic non-ferrous metals, characterized in that a central inner tube (5) for supplying all the oxygen and an annular gap (9) surrounding the central inner tube (5) and delimited by an outer tube (10) forming an outer wall of the burner Supply of the fuels are provided.

2. Burner according to claim 1, characterized in that the inner tube (5) has a support tube (7) made of heat-resistant steel, the outside, facing the annular gap (9), is surrounded by a ceramic tube (8).

3. Burner according to claim 1 or 2, characterized in that the outer tube (10) is hollow and is provided at the burner mouth (4) with an annular gap opening or a plurality of adjacent outflow openings (1 1) for supplying protective gas

4. Burner according to claim 2 or 3, characterized in that the ceramic tube (8) covers the support tube (7) on its mouth-side end face.

5. Burner according to one or more of claims 1 to 4, characterized in that the inner tube (5) on the burner mouth (4) projects beyond the outer tube (10).