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    • 1. 发明专利
    • Method for producing reduced iron using wet dust of blast furnace and method for producing crude zinc oxide
    • 使用硫酸锌粉末生产减少铁的方法和生产氧化锌的方法
    • JP2003293020A
    • 2003-10-15
    • JP2002101667
    • 2002-04-03
    • Kobe Steel Ltd株式会社神戸製鋼所
    • MAKI GOJIMATSUI YOSHIYUKISUGIYAMA TAKESHIHARADA TAKAOTETSUMOTO MASAHIKOTAMAZAWA HIROSHI
    • C22B1/16C21B13/10C22B19/34
    • PROBLEM TO BE SOLVED: To provide a method for producing a reduced iron with which the collapse and the powdering of a pellet in the heating furnace is produced and the product reduced iron having high dezincificating rate and high metallizing rate can be produced at a high yield when the pellet containing wet dust of blast furnace is heated and reduced in the heating furnace to obtain the reduced iron. SOLUTION: The additional ratio of the other powdery raw material containing iron oxide and/or carbon into the wet dust of the blast furnace, is adjusted and mixed raw material is prepared so that an excessive carbon rate SC satisfies the formula: Sc≤8-2NL+0.02YD. Wherein, SC=XC-(12/16)XO, NL: average number of layers of the pellet laid on the furnace hearth, YD =100XC'B/XC. Then, XC: mass% of carbon in the pellet, XO: total mass% of oxygen in the iron oxide and zinc oxide in the pellet, XC'B: mass% of carbon contained in the other powdery raw material in the pellet. COPYRIGHT: (C)2004,JPO
    • 解决问题的方案:提供一种还原铁的制造方法,在该方法中,制造在加热炉中产生塌陷和粉碎的还原铁,并且可以生产具有高脱氮速率和高金属化速率的产品还原铁 当在加热炉中加热和还原含有高炉的湿粉尘的颗粒以获得还原铁时,产率高。

      解决方案:调整含有氧化铁和/或碳的其它粉末原料与高炉湿粉的附加比例,制备混合原料,使得过量碳速率SC满足下式:Sc ≤8-2NL+ 0.02YD。 其中,SC = XC-(12/16)XO,NL:放置在炉底上的平均颗粒层数,YD = 100XC'B / XC。 然后,XC:颗粒中碳的质量%,XO:颗粒中氧化铁和氧化锌中的氧的总质量%,XC'B:颗粒中另一种粉末原料中所含的碳的质量%。 版权所有(C)2004,JPO

    • 3. 发明专利
    • Method for reducing electric furnace dust
    • 减少电热粉尘的方法
    • JP2009052141A
    • 2009-03-12
    • JP2008196770
    • 2008-07-30
    • Kobe Steel Ltd株式会社神戸製鋼所
    • SUGIDACHI HIROSHITAMAZAWA HIROSHI
    • C22B7/02C21B13/10C21C5/52C22B1/16C22B1/216C22B1/242C22B1/248C22B19/38
    • C22B7/02B30B9/328C21B13/0046C21B13/006C21B13/0066C21B13/105C21B2200/00C21C5/38C22B1/245C22B1/248C22B5/10C22B5/16C22B19/28C22B19/34C22B19/38Y02P10/216
    • PROBLEM TO BE SOLVED: To provide a method for reducing an electric furnace dust, comprising compressing molding a powdery mixture of an electric furnace dust, produced in an electric furnace for steelmaking, with a carbon material to prepare a briquette which is then heat reduced in a rotary hearth furnace, in this method, briquette strength high enough to withstand handling in a stage from after molding to charging into the rotary hearth furnace can be ensured, and energy necessary for drying the briquette can be reduced while preventing bursting within the rotary hearth furnace.
      SOLUTION: This method comprises: a step of adding and mixing a carbon material B, a binder C and optionally water into an electric furnace dust A produced within an electric furnace 1 for steelmaking to produce a powdery mixture D having a water content of 0.5 to 3% by mass; and a step of compressing molding the powdery mixture D with a briquette machine 4 to produce a raw briquette E, charging the raw briquette E as such without drying into a rotary hearth furnace 5, and heat reducing to produce a reduced iron briquette F and a crude zinc oxide G.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种减少电炉灰尘的方法,包括将用于炼钢的电炉中生产的电炉灰粉末混合物与碳材料压制成型,以制备一种当时的煤块 在这种方法中,通过这种方法,能够确保在成型后从加热到转底炉的阶段能够承受处理的压块强度,并且能够防止压块内的破裂所需的能量, 转底炉。 解决方案:该方法包括:将碳材料B,粘合剂C和任选的水添加并混合到用于炼钢的电炉1内产生的电炉灰A中以产生具有含水量的粉末混合物D的步骤 为0.5〜3质量% 并用压块机4对粉状混合物D进行压缩成形,生成原料块状坯料E,将原料坯料E原样装入,不干燥成转底炉5,进行减热,生成还原铁团块F和 粗氧化锌G.版权所有(C)2009,JPO&INPIT
    • 4. 发明专利
    • Reduced metal raw material agglomerate and its producing method, and method for producing reduced metal
    • 减少金属原材料及其生产方法和生产减少金属的方法
    • JP2005097665A
    • 2005-04-14
    • JP2003331893
    • 2003-09-24
    • Kobe Steel Ltd株式会社神戸製鋼所
    • TAMAZAWA HIROSHISUGIDACHI HIROSHI
    • C22B1/16C21B13/10C22B1/242C22B5/10
    • PROBLEM TO BE SOLVED: To provide a method for producing a reduced iron briquette at a low cost with which in the case of producing the reduced iron by heating and reducing the reduced iron raw material briquette by using a large quantity of fine powdery raw materials, such as electric furnace dust, with a reducing furnace, such as a rotary hearth furnace, the ordinary binder can be used and the mixture of the raw material is easily performed without needing high pressing force in a briquette forming machine and also, the dry of the briquette.
      SOLUTION: Into the fine powdery raw material A, such as the electric furnace dust, the binder C and if necessary, moisture D are added/mixed to make binder-added slurry A1. After drying this slurry A1, coarse dried raw material B, such as coke powder, is added/mixed to make a dry-mixed material E. Then, this dry-mixed material E is compression-molded to make the reduced iron raw material briquette (reduced metal raw material briquette) F.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种低成本的还原铁团块的制造方法,在通过加热制造还原铁的情况下,通过使用大量的细粉末来还原还原的铁原料团块 诸如电炉灰等原材料,具有诸如转底炉的还原炉,可以使用普通的粘合剂,并且容易地进行原料的混合而不需要在压块成型机中的高压力, 干燥的团块。 解决方案:将细粉末原料A如电炉灰,粘合剂C,如果需要,添加/混合水分D,制成粘结剂添加浆料A1。 干燥该浆料A1后,加入/混合粗干燥原料B,例如焦炭粉末,制成干式混合材料E.然后,将该干燥混合料E压缩成型,制成还原铁原料团块 (减少金属原料团块)F.版权所有(C)2005,JPO&NCIPI
    • 5. 发明专利
    • Reduced metal raw material agglomerate and its producing method, and method for producing reduced metal
    • 减少金属原材料及其生产方法和生产减少金属的方法
    • JP2005089842A
    • 2005-04-07
    • JP2003326451
    • 2003-09-18
    • Kobe Steel Ltd株式会社神戸製鋼所
    • TAMAZAWA HIROSHITETSUMOTO MASAHIKOSUGIDACHI HIROSHI
    • C22B1/16C21B13/10C22B1/242C22B5/10
    • PROBLEM TO BE SOLVED: To provide a method with which undersize powder from dry-pellet and pellet exhausted to out of the system can be treated without circulating to a granulating process, in order to reduce a producing cost of a reduced metal.
      SOLUTION: Into iron ore powder A and coal B, water D if necessary, binder C are added and green pellet E obtained by granulating with a pelletizer 2 is dried in a dryer 3 to obtain the dried pellet F. Successively, the dried pellet F is classified into the over-size pellet F1 and the undersize pellet F2 with a screen 4. Then, in the undersize powder F2, if necessary, the pellet H exhausted to out of the system from the dries pellet F is added, and after kneading with a kneader 6 without adding the binder and the water, this material is compression-formed with a briquette-forming machine 7 to form the briquette J. This briquette J is charged together with the over-size pellet F1 into a rotary hearth furnace 5 and heating-reduction is performed to produce reduced iron G.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了降低生产成本降低金属的生产成本,提供一种方法,其中将来自干颗粒和颗粒的小尺寸粉末排出系统的方法可以在不循环进行造粒过程的情况下进行处理。 解决方案:加入铁矿粉A和煤B,如果需要,加入水D,加入粘合剂C,用造粒机2造粒得到的绿色颗粒E在干燥机3中干燥,得到干燥颗粒F.接着, 将干燥颗粒F用筛网4分类为超尺寸颗粒F1和尺寸过小的颗粒F2。然后,如果需要,在尺寸过小的粉末F2中加入从干燥颗粒F排出系统的颗粒H, 在不添加粘合剂和水的情况下在捏合机6中捏合之后,将该材料用压块成形机7进行压缩成型,形成团块J.将该压块J与超大型颗粒F1一起装入旋转体 炉底炉5进行加热还原,生成还原铁G.版权所有(C)2005,JPO&NCIPI