Shaft furnace for heat treatment of materials with gas

专利摘要:
A shaft furnace 1 for the heat treatment of charge materials with gaseous media has an internal fitting 17, which is arranged centrally inside its cylindrical shell 2 and has a gas feed line 22. To carry out a two-stage or multi-stage treatment of the charge materials using in each case different gaseous media with a favourable flow of material, the interior of the shaft furnace 1 is divided, by at least one internal fitting 17 which forms a constriction 30 in the interior, into at least two treatment zones 26, 28 lying above one another, a discharge line 21 for top gas of the lower treatment zone 26 being provided in a lower part 19 of the internal fitting 17, and a feed line 22 for a treatment gas, in particular for regenerated top gas, and perforation 23 for distributing the treatment gas in the upper treatment zone 28 being provided in an upper part 18 of the internal fitting 17, and a gas-impermeable partition 20 being arranged between the upper and lower parts 18, 19 of the internal fitting 17. <IMAGE>
公开号:SU1732816A3
申请号:SU884355817
申请日:1988-05-27
公开日:1992-05-07
发明作者:Милионис Константин；Стастни Вильхельм；Шиффер Вильхельм；Кепплингер Вернер；Эбенхофер Карл；Шобер Хельмут
申请人:Фоест-Альпине Индустрианлагенбау Гмбх (Фирма)；
IPC主号:

专利说明:

The invention relates to the heat treatment of raw materials with gaseous media, in particular for the reduction or heating of metal-containing piecework material, for example iron ore.
The aim of the invention is to increase the efficiency of the process by providing separation of the treatment gas between the lower and upper zones of the furnace.
Figure 1 shows the proposed shaft furnace, a vertical section; figure 2 - the same option.
The shaft furnace 1 is a cylindrical body 2, which in the lower part passes into a tapering conical bottom 3. In the upper part 4 of the shaft furnace,
having a hemispheric shape, there is a feed opening 5 for the starting material. This hole is separated from the atmosphere with the help of a sluice gate (not shown). In addition, in the upper part of the shaft furnace there is an opening 6 for removing exhaust gases from it. At the apex of the conical bottom 3 of the shaft furnace 1 there are radially located relative to its central axle 7 and driven screw M screw conveyors 8 for unloading material from the furnace. Due to the conical shape of the lower part of the shaft furnace 1, their discharge openings 9 are located at a small (in the radial direction) distance 10 from the central axis; therefore,
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This material can enter the melting gasifier 11 under the shaft furnace 1 through vertical gravity pipes 12.
At the transition point of the cone-shaped part 3 of the shaft furnace 1 to the cylindrical part 2 there is an inlet 13 for the reducing gas, which is shielded from the raw material loaded into the furnace with a disk-shaped apron 14. Between this apron and the expanding part 15 of the housing 2, which has a ring-shaped form, at the entrance For gas openings 13, there is an annular hollow space 16 through which the reducing gas supplied to the shaft furnace 1 is uniformly supplied to the raw material around the entire perimeter of the furnace.
At about half the height of the shaft furnace 1, inside it, along the central axis, a hollow integrated body 17 is mounted, consisting of an upper cone-shaped 18 and a lower cylindrical 19 parts. Between parts 18 and 19, inside the embedded body 17, there is a gas-tight partition 20.
In the lower cylindrical part 19 of the embedded body 17, the gas outlet pipe 21 located radially and passing through the body 2 of the shaft furnace 1 to the outside ends, and in the upper conical part 18 of the body there is a gas supply line 22 also passing through the body 2 of the shaft furnace. To ensure a uniform gas outflow from the cone-shaped part, there are a large number of holes 23 in it.
A cone-shaped guide body 24 is mounted inside the cylindrical part 19 of the embedded body 17 along its axis to ensure uniform removal of the top gas from the lower part of the shaft furnace 1. This body is connected to the cylindrical part 19 of the built-in body 17 by means of star-diverging radial ribs 25 .
The top gas withdrawn from the lower working zone 26 of the shaft furnace 1 is directed to the combustion chamber 27, in which it is burned with oxygen-containing gas. The hot gas generated in the combustion chamber 27 along the gas conduit 22 connecting it with the embedded body 17 is directed to the upper working zone 28 of the shaft furnace 1. A gas burner 29 is mounted in the combustion chamber 27, which functions as a pilot nozzle and supports the burner process.
Shaft furnace works as follows.
Injected from above into the upper working zone 28 of the shaft furnace 1, occupying the space from the embedded body 17 to the upper part 4 of the furnace, the siderit ore is heated by hot gas supplied to it from the combustion chamber 27 and calcined. The gas passing through the ore is withdrawn from the shaft furnace 1 through the outlet b. With the passage of iron ore by
of the embedded body 17, it is pushed aside towards the body 2 of the shaft furnace 1 and compacted, resulting in a natural barrier to the passage of the top gas generated in the lower working area
26 through an annular gap 30 formed by the embedded body 17 and the cylindrical body 2 of the shaft furnace 1.
In the lower working zone 26 located under the embedded body 17, the calcined ore is reduced by the reducing gas coming out of the melting gasifier 11, which is fed into the furnace through the inlet 13, and by means of the transporting screws 8
shaft furnace 1 and sent to the melter gasifier 11 located beneath it. The embedded body in the lower part may have a double wall (Fig. 2). As a result, an annular gap 30 is formed between the walls 31 and 32, which is separated from the housing 2 of the lower part of the shaft furnace 1 by an annular gap 33. With this design, the pipe 21 for removing the top gas passing through the body 2 of the shaft furnace 1 is located at a height of
this second annular gap 33.
At the lower end of the annular gap 30 formed by the embedded body 17 there are alternately directed outward and inward guide plates 34 for uniformly distributing the heated ore in the lower part of the shaft furnace 1.
A shaft furnace allows for
two-stage or multi-stage processing of raw materials, and in each working area regardless of another or other working areas while maintaining the vertical flow of the source material
various gases can be introduced, thereby eliminating the need for using expensive conveying devices to move the source material from one zone to another. Multistep treatment is advisable, for example, in the case of using high-water carbonate ores. During this treatment, prior to calcination, preliminary ore dehydration can be performed.

权利要求:
Claims (3)
[1]
1. A shaft furnace for the thermal treatment of materials with gas, mainly for restoring or heating a metal-containing lump material, such as iron ore, comprising a cylindrical body, a charging unit, a discharge unit located in the narrowed bottom of the furnace, gas supply and gas exhaust lines and located in the center of the furnace and dividing its working space into two lying one above the other treatment zones built-in hollow body connected to the gas o under the water pipeline and having holes in the upper the second part for distributing the gas, characterized in that, in order to increase
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process efficiency by providing separation of the treatment gas between the lower and upper zones, the embedded body is divided by a horizontal partition into two parts, with the upper part connected to the gas supply pipe, and the lower part is made open and connected to the exhaust pipe .
[2]
2, The furnace according to claim 1, excluding the fact that the upper part of the body is made conical, and the lower part is cylindrical.
[3]
3. An oven as claimed in claim 1, characterized in that it is provided with a downward-facing cone-shaped guide body located in the open lower part of the embedded hollow body.

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同族专利:

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公开号 | 公开日

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AT387037B|1988-11-25|

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ATA151187A|1988-04-15|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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DE2628447A1|1976-06-24|1978-01-05|Krupp Gmbh|SHAFT FURNITURE FOR THE DIRECT REDUCTION OF IRON ORES|AT405332B|1997-07-14|1999-07-26|Voest Alpine Ind Anlagen|SHAFT OVEN|

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DE19739443C2|1997-09-02|2000-02-10|Voest Alpine Ind Anlagen|Device for producing sponge iron|

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AT407192B|1998-08-13|2001-01-25|Voest Alpine Ind Anlagen|SHAFT OVEN|

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IT1315147B1|2000-11-14|2003-02-03|Danieli Off Mecc|OVEN FOR THE DIRECT REDUCTION OF IRON OXIDES|

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AT505490B1|2007-06-28|2009-12-15|Siemens Vai Metals Tech Gmbh|METHOD AND DEVICE FOR PRODUCING IRON SPONGE|

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CN109937247A|2016-11-03|2019-06-25|米德雷克斯技术公司|Utilize the direct-reduction of coal gasification and coke-stove gas|

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EA036649B1|2016-11-03|2020-12-03|Мидрэкс Текнолоджиз, Инк.|Direct reduction process and shaft furnace utilizing an extended flow diverter cone|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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AT151187A|AT387037B|1987-06-15|1987-06-15|Shaft furnace for the heat treatment of charge materials with gaseous media|

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