阅读说明：本技术 一种粗锡冶炼系统及工艺 (Crude tin smelting system and process ) 是由 李正永 杨从兴 宋兴诚 王彦坤 刘庆东 周先辉 杨德香 于 2020-07-13 设计创作，主要内容包括：一种粗锡冶炼系统及工艺,所述系统包括顶吹炉、凝析锅、水淬系统、余热锅炉、焙烧炉、冷却烟道、电收尘器、骤冷器、布袋收尘器和脱硫制酸系统；顶吹炉产出的含尘烟气通过顶吹炉顶部的排烟口进入到余热锅炉；凝析锅设置于顶吹炉的下方；焙烧炉顶部设置的排烟口I连通至冷却烟道；水淬系统与顶吹炉的排渣口连接；电收尘器、骤冷器和布袋收尘器依序连接；电收尘器、骤冷器和布袋收尘器设有两组,其一组中的电收尘器与余热锅炉连接,另一组中的电收尘器连接至冷却烟道；布袋收尘器均连接至脱硫制酸系统。本发明设备配置少、投资小,而且熔炼、还原和烟化过程在同一座炉子中连续完成,减少了中间物料的周转,降低了物料损失。(A crude tin smelting system and a process thereof, wherein the system comprises a top-blown converter, a condensing boiler, a water quenching system, a waste heat boiler, a roasting furnace, a cooling flue, an electric dust collector, a quenching device, a cloth bag dust collector and a desulfurization acid-making system; the dust-containing flue gas produced by the top-blowing furnace enters the waste heat boiler through a smoke outlet at the top of the top-blowing furnace; the condensation pot is arranged below the top-blown converter; a smoke outlet I arranged at the top of the roasting furnace is communicated to the cooling flue; the water quenching system is connected with a slag discharge port of the top-blown furnace; the electric dust collector, the quencher and the bag dust collector are connected in sequence; the electric dust collector, the quencher and the cloth bag dust collector are provided with two groups, the electric dust collector in one group is connected with the waste heat boiler, and the electric dust collector in the other group is connected with the cooling flue; the bag dust collectors are all connected to a desulfurization and acid production system. The invention has the advantages of less equipment configuration and less investment, and the smelting, the reduction and the fuming processes are continuously completed in the same furnace, thereby reducing the turnover of intermediate materials and reducing the material loss.)

1. A crude tin smelting system is characterized in that: comprises a top-blown converter (1), a condensing boiler (2), a water quenching system (3), a waste heat boiler (4), a roasting furnace (5), a cooling flue (6), an electric dust collector (7), a quenching device (8), a cloth bag dust collector (9) and a desulfurization acid-making system (10); wherein the content of the first and second substances,

the top-blown converter (1) comprises a hearth (103) and a spray gun (101) inserted into the hearth (103); the bottom of the top-blown furnace (1) is provided with a metal discharge port (106), the top of the top-blown furnace is provided with a smoke outlet (107) and a feed opening (105), and one side of the bottom of the top-blown furnace is provided with a slag discharge port (108); the dust-containing flue gas produced by the top-blown furnace (1) enters the waste heat boiler (4) through a smoke outlet (107) at the top of the top-blown furnace (1);

the condensing pot (2) is arranged below the top-blown converter (1) and is used for receiving crude tin discharged from a metal discharge port of the top-blown converter (1); conveying the condensed slag of the crude tin condensed in the condensing pot (2) to a roasting furnace (5), and communicating a smoke outlet I arranged at the top of the roasting furnace (5) to a cooling flue (6); the water quenching system (3) is connected with a slag discharge port of the top-blown converter (1);

the electric dust collector (7), the quencher (8) and the bag dust collector (9) are connected in sequence; the electric dust collectors (7), the quenching device (8) and the bag dust collector (9) are provided with two groups, the electric dust collector (7) in one group is connected with the waste heat boiler (4), and the electric dust collector (7) in the other group is connected with the cooling flue (6); the bag dust collectors (9) are all connected to a desulfurization and acid production system (10).

2. The crude tin smelting system according to claim 1, wherein: the metal discharge port of the top-blown furnace (1) is connected with the condensate pot (2) through a chute, and the slag discharge port of the top-blown furnace (1) is connected with the water quenching system (3) through a chute.

3. The crude tin smelting system according to claim 1, wherein: a smoke exhaust fan is arranged behind the cloth bag dust collector (9).

4. A crude tin smelting process using the system of claim 1 or 2 or 3, characterized by the steps of:

1) continuously adding the tin concentrate, the tin-containing raw material and the flux into a top-blown furnace (1) to continuously perform smelting, reduction and slag fuming in sequence; when the reduction is carried out until the tin content of the slag is lower than 4%, discharging all crude tin in the top-blown converter (1) to a condensing boiler (2), wherein the slag is not discharged;

2) continuously adding a vulcanizing agent into the top-blowing furnace (1) for slag fuming, finishing the fuming when the tin content of the slag is lower than 0.2%, and discharging the tin-poor slag from a slag discharge port of the top-blowing furnace (1) to a water quenching system (3) for water quenching to obtain water-quenched slag;

3) the dust-containing flue gas produced in each stage of the top-blowing furnace (1) passes through a smoke outlet arranged at the top of the top-blowing furnace (1) and sequentially passes through a waste heat boiler (4), an electric dust collector (7), a quenching device (8) and a bag dust collector (9), the smoke dust obtained by the waste heat boiler (4) and the electric dust collector (7) is returned to the top-blowing furnace (1) for treatment, and the high-arsenic dust obtained by the bag dust collector (9) is used as a raw material of an arsenic product for additional treatment;

4) condensing the crude tin in a condensing pot (2) to obtain crude tin and condensed slag, sending the condensed crude tin to a refining system for further refining, sending the condensed slag to a roasting furnace (5) for roasting, and returning the obtained roasted slag to a top-blown furnace (1) for continuous treatment;

5) the dust-containing flue gas produced by the roasting furnace (5) sequentially passes through a cooling flue (6), an electric dust collector (7), a quenching device (8) and a bag dust collector (9), wherein the smoke dust obtained by the electric dust collector (7) returns to the roasting furnace (5), and the high-arsenic flue gas obtained by the bag dust collector (9) is used as a raw material of an arsenic product for additional treatment;

6) the top-blown furnace flue gas and the roasting furnace flue gas after dust removal are sent to a desulfurization acid-making system (10) to prepare sulfuric acid.

5. The crude tin smelting process according to claim 4, wherein: the air in the smelting stage is oxygen-enriched air containing 25-45% of oxygen.

6. The crude tin smelting process according to claim 4, wherein: and blowing secondary air into the upper part of the hearth of the top-blown furnace according to the sulfur-containing condition of the concentrate in the smelting stage of the top-blown furnace to ensure that volatile matters are completely combusted.

7. The crude tin smelting process according to claim 4, wherein: the high-concentration SO is obtained by adopting an organic amine liquid absorption-desorption technology in the desulfurization acid-making system (10)₂Then preparing sulfuric acid.

8. The crude tin smelting process according to claim 4, wherein: the added vulcanizing agent is pyrite which is a 5-10 cm lump or a brick with the same volume.

Technical Field

The invention belongs to the technical field of tin smelting, and particularly relates to a crude tin smelting system and a crude tin smelting process.

Background

In the traditional process, the main purpose of roasting treatment before smelting of tin concentrate is to remove sulfur and arsenic in the tin concentrate so as to reduce the smoke dust amount and the tin-ethyl rate (tin-ethyl is a compound mainly formed by tin, iron and arsenic) during smelting reduction. The main morphologies of sulphur and arsenic present in tin concentrates are: pyrite (FeS)₂) Arsenopyrite (FeAsS), arsenopyrite (FeAsS)₂) Arsenopyrite (FeAs)₂) When the roasting temperature is 850-950 ℃, dissociation reaction and oxidation reaction are carried out, and sulfur and arsenic respectively generate SO₂And As₂O₃The flue gas is removed, and the main equipment is a fluidized roasting furnace, a rotary kiln and the like. And carrying out reduction smelting on the tin concentrate subjected to roasting treatment before smelting to produce crude tin and tin-rich slag, wherein the tin-rich slag needs to be further treated to recover tin, and the equipment used for reduction smelting mainly comprises an Ausmelt furnace, a reverberatory furnace and the like. The tin-rich slag produced by reduction smelting is fuming by a fuming furnace to produce tin-rich smoke dust and disposable depleted slag.

Therefore, the main process of crude tin smelting at present comprises the following steps: the method comprises the steps of pre-smelting treatment of tin concentrate (a fluidized roasting furnace and the like), reduction smelting (an Ausmelt furnace, a reverberatory furnace and the like), depletion treatment of tin-rich slag (a fuming furnace) and roasting treatment of refining slag (a rotary kiln), wherein each process needs to be provided with a set of complete treatment system, so that the problems of large equipment investment, complicated and lengthy process, more material dispersion and turnover and the like are caused, and the smelting efficiency is not favorably improved and the environment is protected.

Disclosure of Invention

Based on the defects of the prior art, the invention provides a crude tin smelting system and a process. The invention is realized by the following technical scheme:

a crude tin smelting system comprises a top-blown converter, a condensing boiler, a water quenching system, a waste heat boiler, a roasting furnace, a cooling flue, an electric dust collector, a quenching device, a cloth bag dust collector and a desulfurization acid-making system; wherein the content of the first and second substances,

the top-blown furnace (generally an Ausmelt furnace) comprises a hearth and a spray gun inserted into the hearth; the bottom of the top-blown furnace is provided with a metal discharge port, the top of the top-blown furnace is provided with a smoke outlet and a feed opening, and one side of the bottom of the top-blown furnace is provided with a slag discharge port; the dust-containing flue gas produced by the top-blowing furnace enters the waste heat boiler through a smoke outlet at the top of the top-blowing furnace;

the condensation pot is arranged below the top-blowing furnace and is used for receiving crude tin discharged from a metal discharge port of the top-blowing furnace; conveying the condensed slag of the crude tin condensed in the condensing boiler to a roasting furnace, and communicating a smoke outlet I arranged at the top of the roasting furnace (the roasting furnace is a rotary kiln generally) to a cooling flue; the water quenching system is connected with a slag discharge port of the top-blown furnace;

the electric dust collector, the quencher and the bag dust collector are connected in sequence; the electric dust collector, the quencher and the cloth bag dust collector are provided with two groups, the electric dust collector in one group is connected with the waste heat boiler, and the electric dust collector in the other group is connected with the cooling flue; the bag dust collectors are all connected to a desulfurization and acid production system.

Preferably, the condensate pot is connected with a metal discharge port of the top-blown converter through a chute, and the water quenching system is connected with a slag discharge port of the top-blown converter through the chute.

Preferably, a smoke exhaust fan is arranged behind the cloth bag dust collector.

The invention also discloses a crude tin smelting process using the system, which comprises the following steps:

1) continuously adding the tin concentrate, the tin-containing raw material and the flux into a top-blown furnace to sequentially and continuously carry out smelting, reduction and slag fuming; when the reduction is carried out until the tin content of the slag is lower than 4%, discharging all crude tin in the top-blown converter to a condensation boiler, and discharging no slag;

2) continuously adding a vulcanizing agent into the top-blowing furnace to carry out slag fuming, finishing the fuming when the tin content of the slag is lower than 0.2%, and discharging the tin-poor slag from a slag discharging port of the top-blowing furnace to a water quenching system for water quenching to obtain water-quenched slag;

3) the dust-containing flue gas produced in each stage of the top-blown furnace passes through a smoke outlet arranged at the top of the top-blown furnace and sequentially passes through a waste heat boiler, an electric dust collector, a quencher and a bag dust collector, the smoke dust obtained by the waste heat boiler and the electric dust collector returns to the top-blown furnace for treatment, and the high-arsenic dust obtained by the bag dust collector is used as a raw material of an arsenic product for additional treatment;

4) condensing the crude tin in a condensing pot to obtain crude tin and condensed slag, sending the condensed crude tin to a refining system for further refining, sending the condensed slag to a roasting furnace for roasting, and returning the obtained roasted slag to a top-blown furnace for continuous treatment;

5) the dust-containing smoke produced by the roasting furnace sequentially passes through a cooling flue, an electric dust collector, a quencher and a bag dust collector, wherein the smoke dust obtained by the electric dust collector returns to the roasting furnace, and the high-arsenic smoke dust obtained by the bag dust collector is used as a raw material of an arsenic product for additional treatment;

6) and (4) sending the top-blown furnace flue gas and the roasting furnace flue gas after dust removal to a desulfurization acid-making system to prepare sulfuric acid.

Preferably, the air in the smelting stage is oxygen-enriched air containing 25-45% of oxygen.

Preferably, secondary air is blown into the upper part of a hearth of the top-blown furnace in the smelting stage of the top-blown furnace according to the sulfur content (0-5%) of the concentrate, so that volatile matters are completely combusted.

Preferably, the organic amine liquid absorption-desorption technology is adopted in the desulfurization acid-making system to obtain high-concentration SO₂Then preparing sulfuric acid.

Preferably, the added vulcanizing agent is pyrite, and the pyrite is a 5-10 cm lump or a brick with the same volume.

Has the advantages that: the tin concentrate treated by the method is not subjected to roasting treatment, and the depletion slag finally discharged from the top-blowing furnace is the disposable slag, so that a concentrate refining pretreatment system and a slag depletion system do not need to be newly built. The invention has short process flow, less equipment configuration and less investment, and the smelting, the reduction and the fuming processes are continuously completed in the same furnace, thereby greatly reducing the turnover of intermediate materials, reducing the material loss and reducing the unorganized emission and the flying dust.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is an enlarged schematic view of the top-blown converter;

FIG. 3 is a schematic diagram of a crude tin smelting process of the present invention.

Detailed Description

Embodiments of the present invention will now be described with reference to the accompanying drawings. It will be appreciated by those skilled in the art that the following examples are illustrative of the invention only and should not be taken as limiting the scope of the invention. The specific techniques, connections, conditions, or the like, which are not specified in the examples, are performed according to the techniques, connections, conditions, or the like described in the literature in the art or according to the product specification. The materials, instruments or equipment are not indicated by manufacturers, and all the materials, instruments or equipment are conventional products which can be obtained by purchasing.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "fixed", "mounted", "connected" and "provided" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. To those of ordinary skill in the art, the specific meanings of the above terms in the present invention are understood according to specific situations.

For convenience of expression, the tin chute, the slag chute and the smoke exhaust duct in fig. 1 do not show specific structures, but schematically show the connection relationship between the devices (systems) by lines with arrows. The structure of the present invention will be described below with reference to the accompanying drawings.

Referring to fig. 1 and 2, a crude tin smelting system comprises a top-blown converter 1, a condensing boiler 2, a water quenching system 3, a waste heat boiler 4, a roasting furnace 5, a cooling flue 6, an electric dust collector 7, a quenching device 8, a bag dust collector 9 and a desulfurization acid-making system 10; wherein the content of the first and second substances,

the top-blown converter 1 comprises a hearth 103 and a lance 101 inserted into the hearth 103 (in the smelting process, a molten slag pool 104 is formed at the lower part of the top-blown converter 1 after materials are molten); secondary air 102 enters the hearth 103 via the lance 101; the bottom of the top-blown converter 1 is provided with a metal discharge port 106, the top is provided with a smoke outlet 107 and a feed opening 105, and one side of the bottom is provided with a slag discharge port 108; the dust-containing flue gas produced by the top-blown converter 1 enters the waste heat boiler 4 through a smoke outlet 107 at the top of the top-blown converter 1;

the condensing pot 2 is arranged below the top-blown converter 1 and is used for receiving crude tin discharged from a metal discharge port of the top-blown converter 1; the slag condensed from the crude tin in the condenser 2 is sent to a roaster 5, specifically: naturally cooling the condensed slag produced by the condensation boiler, conveying the naturally cooled condensed slag into a roasting furnace by using a belt conveyor, and communicating a smoke outlet I arranged at the top of the roasting furnace 5 to a cooling flue 6; the water quenching system 3 is connected with a slag discharge port of the top-blown furnace 1;

the electric dust collector 7, the quencher 8 and the bag dust collector 9 are connected in sequence; the electric dust collectors 7, the quencher 8 and the bag dust collector 9 are provided with two groups, wherein the electric dust collector 7 in one group is connected with the waste heat boiler 4, and the electric dust collector 7 in the other group is connected with the cooling flue 6; the bag dust collectors 9 are all connected to a desulfurization and acid production system 10. Specifically, the method comprises the following steps: the smoke outlet of the top-blowing furnace, the waste heat boiler, the electric dust collector, the quencher, the cloth bag dust collector and the desulfurization and acid production system are sequentially connected through a smoke exhaust pipeline; the smoke outlet I of the roasting furnace, the cooling flue, the electric dust collector, the quencher, the cloth bag dust collector and the desulfurization and acid production system are sequentially connected through a smoke exhaust pipeline; the quench is an air quench tower.

Further, the condensate pot 2 is connected with a metal discharge port of the top-blowing furnace 1 through a chute, and the water quenching system 3 is connected with a slag discharge port of the top-blowing furnace 1 through a chute; a smoke exhaust fan is arranged behind the bag dust collector 9 and used for exhausting smoke to the desulfurization and acid production system 10.

Referring to fig. 3, the invention discloses a crude tin smelting process using the system, which comprises the following steps: