• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    <P> Process for the production of carburized iron sponge briquettes using iron ore directly reduced in a fluidized bed. </ P> <P> The carburizing operation is carried out downstream of the last reduction reactor. </ P> <P> Application to briquettes used in metallurgy using an electric oven. </ P>
    公开号:SU997610A3
    申请号:SU772508053
    申请日:1977-08-04
    公开日:1983-02-15
    发明作者:Якотти Итало;Пазеро Эдоардо
    申请人:Иституто Ди Ричерка Финсидер Пер Ля Ридуционе Диретта (Ирфирд С.П.А.) (Фирма);
    IPC主号:
    专利说明:

    The invention relates to methods for continuously feeding sponge iron briquettes into an electric furnace, obtained, for example, by direct reduction in a fluidized bed reactor.
    The exact processes of an electric furnace require (especially when the reduced materials are continuously loaded into the furnace) that the briquettes contain 1-2% carbon, depending on the residual oxygen content in the reduced materials, either in the form of small particles scattered in a sponge or in the form of carbon bound with iron sponge. The purpose of carbon is mainly to react in the liquid phase with iron oxide (s) remaining in the sponge to create carbon monoxide and iron. formula FeO + C ^ Fe + CO.
    The reaction is endothermic, proceeds better in a liquid metal bath in an electric furnace and gives a complete deoxidation of iron, as well as the mixing effect produced by the release of CO, which positively affects the temperature changes of the iron sponge. Therefore, the purpose of carburizing an iron sponge is to produce a metal that interacts with the amount of solid reducing agent that is required for the complete deoxidation of ‘-iron.
    A known method for the production of tubular iron, in which the recovered agglomerated iron ore material is carburized by a gaseous carbon-containing agent. In carburization, the reducing and fluidizing agents are mixtures of gas-containing carbon, for example, CO and sn 4 [1 J.
    A disadvantage of this method is the m by the need to maintain a constant ratio ^ karbiruyuschego and an inert component in the process flow, which causes an inevitable continuous leakage. Nervous components form soot deposits, 3 997610 and their inclusion in the gas stream requires additional energy to compress and recycle the gas stream, an enlarged section of the reactor and an additional heat reactor.
    Closest to the invention is a method for the production of sponge iron, including partial or complete reduction of ores and concentrates, mixing it with solid carbon material and subsequent briquetting £ 2 * | G
    The disadvantage of this method, in addition to the indicated ones, is the high consumption of a carburizing agent, since the heat contained in the spongy iron, which leaves the reduction reactor, is not taken into account.
    The purpose of the invention is to reduce the consumption of carburizing agent and energy consumption during recovery in the reactor fluidized bed.
    This goal is achieved in that according to the method for the production of carbonized sponge iron, including the recovery of ores and concentrates, carburization of the resulting sponge iron by mixing with solid carbon-containing material 30 and briquetting, sponge iron are mixed, homogenized and briquetted with solid carbon-containing material having a granule size less than '1 mm, in an inert gas atmosphere at 6 ° -700 ° C.
    The process is based on the principle of creating a carburization operation after the last reduction reactor. The iron sponge is saturated with carbon through the use of a solid carburizing agent.
    The following operations are performed on iron powder at 600 ° and 700 ° C in the presence of an inert atmosphere:
    loading with solid material (added separately or in combination) with a grain size not exceeding 1 mm and containing carbon with a low percentage of sulfur, ash and volatile materials * homogenization of the mixture; briquetting using standard technology.
    Solid material containing carbon is isolated, for example, from coke, graphite, anthracite, etc.
    Under these conditions, carburizing agents are thermally decomposed and form a deposited carbon layer, the processing temperature is determined by the temperature at which the sponge iron leaves the reduction reactor (reduction degree 9M ”). .
    When using the proposed method, it is possible to precisely control the amount of carbon introduced into the briquette as they are subsequently fed into the electric furnace.
    Example 1. 112 g of crushed iron sponge with a carbon content of 0.080%. Saturated with carbon. The iron sponge powder is mixed at 65 ° C in a nitrogen atmosphere with 3 g of coke having a grain size of less than 1 mm and the following composition, ash 9, volatile materials 0.5 and sulfur 1. The mixture is homogenized and hot formed into briquettes that have the following physical properties:
    /
    The amount of carbon,% 2.13 Critical longitudinalload, kg / briquette 2310 Average densityg / cm 4.44
    These briquettes are suitable for continuous loading into an electric furnace.
    PRI me R 2. The same amount of powder of an iron sponge with the same initial carbon content is mixed with those examples 1, 3 and 3 with the largest briquettes properties:
    The amount of carbon,% Critical longitudinal load, kg / briquette Average density, g / cm ^
    -These. briquettes are suitable for continuous loading into an electric furnace.
    under the same conditions as in g electrode grafter less than 1 mm. Have the following
    2,5
    2550
    权利要求:
    Claims (2)
    [1]
    399 and their inclusion in the gas flow requires additional energy for compressing and recirculating the gas flow, an increased cross section of the reactor, and an additional heat reactor. Closest to the invention is a method of producing sponge iron, including partial or complete reduction of ores and concentrates, mixing it with solid carbonaceous material and subsequent B2TG briquetting. The disadvantage of this method, besides these, is the high consumption of carburizing agent, since the heat contained in sponge iron leaving the reduction reactor. The aim of the invention is to reduce the consumption of carburizing art / (that and energy costs when reconditioning in a fluidized bed reactor. The goal is achieved by the method of production of carbon sponge iron, including the reduction of ores and concentrates, the carburization of the obtained spongy iron by mixing with solid carbon-containing material and briquetting, the sponge is sewn, homogenized and briquetted with solid carbon-containing material having a granule size of less than 1 mm in the atmosphere and gas at 6 W-700 C. The process is based on the principle of creating a carburizing operation after the last reduction reactor. The iron sponge is saturated with carbon due to the use of a solid carburizing agent. The following operations are performed on iron powder at CHP and in the presence of an inert atmosphere: loading with solid material (up to separately or in combination) with a grain size not exceeding 1 mm and containing carbon with a low percentage of sulfur, ash and volatile materials, homogenizing the mixture si; standard briquetting. Solid material containing carbon is recovered, for example, from coke, graphite, anthracite, etc. Under these conditions, the carburizing agents undergo thermal decomposition and form a layer of precipitated carbon, the treatment temperature is determined by the temperature at which the sponge iron exits the reduction reactor (reduction ratio 7). When using the proposed method, it is possible to precisely control the amount of carbon introduced into the briquette as they are sequentially supplied; in an electric oven. When measuring 112 g of crushed iron sponge with a carbon content of 0.080%. Saturated with carbon. The iron sponge powder is mixed under nitrogen with 3 g of coke having a grain size of less than 1 mm and the composition is as follows,%: ash 9, volatile materials 0.5 and sulfur 1. The mixture is homogenized and heated in hot form into brites, which have the following physical properties: Amount of carbon,% Critical longitudinal load, kg / briquette Average density, g / cm These briquettes are suitable for continuous loading into an electric furnace. Example 2, The same amount of iron sponge powder with the same initial carbon content is mixed under the same conditions as in example 1, about 3 g of electrode graphite with a grain size less than 1 mm. The resulting briquettes have the following properties: Amount of carbon,% 2.5 Critical longitudinal load, kg / briquette2550 Average density, g / cm5.i, These. Briquettes are suitable for continuous loading into an electric oven. Claims method of producing carburized sponge iron, including the reduction of ores and concentrates, carburizing the obtained sponge iron by mixing with solid carbon-containing material and briquetting, which is based on the fact that, in order to reduce the consumption of carburizing material and energy, 997610, 4
    gozatrat when recovering in re-Sources of information
    fluidized bed torus, taken into consideration during the examination, iron is mixed and homogenized1. Direct iron making and powder briquettes with metallurgists from solid carbon steel. I., Metallurgists,
    holding material having size sIS, c. tOO-106. granules less than 1 mm, in the atmosphere of inert
    [2]
    2. USSR author's certificate
    foot gas at the OOO-OOO C} G 160192, cl. From 22 to 1 / 2tt 1963.
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    同族专利:
    公开号 | 公开日
    GB1541995A|1979-03-14|
    FR2360670A1|1978-03-03|
    AR216651A1|1980-01-15|
    DE2735020B2|1980-09-18|
    NO146365B|1982-06-07|
    FR2360670B1|1980-02-15|
    IT1066135B|1985-03-04|
    NL7708552A|1978-02-07|
    BE857414A|1977-12-01|
    NO146365C|1982-09-15|
    DE2735020A1|1978-02-09|
    NO772664L|1978-02-07|
    DE2735020C3|1981-04-16|
    DE7724215U1|1981-06-11|
    MX151081A|1984-09-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE2852964A1|1978-12-07|1980-06-26|Krupp Polysius Ag|METHOD AND SYSTEM FOR REDUCING ORES|
    US4248624A|1979-04-26|1981-02-03|Hylsa, S.A.|Use of prereduced ore in a blast furnace|
    AT382166B|1985-05-13|1987-01-26|Voest Alpine Ag|METHOD FOR DIRECTLY REDUCING PARTICULAR IRON-OXIDATING MATERIAL|
    DE3835332A1|1988-10-17|1990-04-19|Ralph Weber|METHOD FOR PRODUCING STEEL FROM FINE ORE|
    BE1010986A3|1995-05-23|1999-03-02|Centre Rech Metallurgique|Method of carbon enrichment of an iron sponge|
    DE19717304C2|1997-04-24|1999-05-27|Metallgesellschaft Ag|Process for producing iron carbide from granular sponge iron|
    DE19748968C1|1997-11-06|1999-06-10|Metallgesellschaft Ag|Process for producing a mixture of iron carbide and granular, directly reduced iron|
    US6030434A|1999-03-31|2000-02-29|International Briquettes Holding|Method for hot agglomeration of solid metallized iron particles to produce alloyed briquettes|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    IT50767/76A|IT1066135B|1976-08-04|1976-08-04|PROCESS FOR THE PRODUCTION OF CARBURATED IRON SPONGE BRIQUETTES|
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