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    • 2. 发明专利
    • Apparatus for cooling char of coal gasifying equipment
    • 煤炭气化设备冷却装置
    • JPH11279567A
    • 1999-10-12
    • JP7999598
    • 1998-03-26
    • Kawasaki Steel CorpKobe Steel LtdNippon Steel CorpNkk CorpSumitomo Metal Ind Ltd住友金属工業株式会社川崎製鉄株式会社新日本製鐵株式会社日本鋼管株式会社株式会社神戸製鋼所
    • EGASHIRA TATSUHIKOFUJIKAWA ATSUSHIMASUI MASAKIKOTSURU HIROYUKI
    • C10J3/46C10J3/48C10J3/50
    • PROBLEM TO BE SOLVED: To prevent adhesion and hanging of char due to dew formation of tar or moisture in a refrigerator by mounting a heat exchanger tube for cooling char with a refrigerant in an inner portion of the refrigerator for cooling char which is recovered by a solid-liquid separation apparatus of a coal gasifying equipment having a gasifying furnace for gasifying coal and a carbonic material.
      SOLUTION: A coal-gasifying apparatus comprises a gasifying furnace 1, a thermal cracking furnace 2, a cyclone 6, a char hopper 7, a char-cooling apparatus 10 and a char conveying system 12. A heat exchanger tube 14 which cools char with a refrigerant is mounted in an inner portion of a char-cooling apparatus 10 of this equipment and a temperature of a refrigerant passing through a heat exchanger tube is preferably controlled at a temperature not less than a water dew point or a tar dew point of gas introduced with the char into the char cooling apparatus (A scraper is mounted on an upper portion of the heat exchanger 14; the heat exchanger tube 14 has a rotary structure; or the heat exchanger tube 14 has a back and forth and right and left movable structure to effectively remove the char).
      COPYRIGHT: (C)1999,JPO
    • 要解决的问题:为了防止冰箱内的焦油或水分的结晶形成焦炭和水分的粘附和悬挂,在冷藏库的内部安装用于冷却焦炭的制冷剂的热交换管,用于冷却焦炭 具有气化煤气化炉和碳质材料的煤气化设备的固液分离装置。 解决方案:煤气化装置包括气化炉1,热裂解炉2,旋风分离器6,焦炭料斗7,焦炭冷却装置10和炭输送系统12.一种热交换器管14, 制冷剂安装在该设备的焦炭冷却装置10的内部,并且通过热交换器管的制冷剂的温度优选控制在不低于水露点或焦油露点的温度 在焦炭冷却装置中引入炭(刮板安装在热交换器14的上部;热交换器管14具有旋转结构;或者热交换器管14具有前后左右可动 结构有效地去除了char)。
    • 3. 发明专利
    • INSTALLATION FOR GASIFYING COAL
    • JPH10265785A
    • 1998-10-06
    • JP7425897
    • 1997-03-26
    • NIPPON STEEL CORP
    • EGASHIRA TATSUHIKOFUJIKAWA ATSUSHI
    • C10J3/46C10J3/48C10J3/52
    • PROBLEM TO BE SOLVED: To provide a coal-gasifying installation shortened in startup time, improved in restartup ability and reduced in heat loss by movably or detachably disposing a gasification oven-heating burner upwardly producing a flame in a combustion chamber disposed between the gasification oven and a cooling water hopper. SOLUTION: A gasification burner 7 for a gasification oven 1 is disposed in combustion chamber 2 placed between the gasification oven 1 for partially burning coal and a carbonaceous solid with an oxidizing agent to gasify the raw materials and converting ash into a melted slag and a cooling water hopper 3 for granulating the melted slag flowed down from the gasification oven 1 with water. A combustion flame from the burner 7 is upwardly blown out to heat a slag tap 5 and the gasification oven 1 on the startup of the coal-gasifying installation, and the burner 7 is movably or detachably disposed so as to be not exposed to the melted slag flowed down from the gasification oven 1.
    • 6. 发明专利
    • GAS BLOWING DEVICE FOR CIRCULATION FLUIDIZED REDUCTION DEVICE
    • JPH06180186A
    • 1994-06-28
    • JP32963892
    • 1992-12-09
    • NIPPON STEEL CORP
    • KUNITOMO KAZUYATAKAMOTO YASUSHIEGASHIRA TATSUHIKO
    • F27B15/10
    • PURPOSE:To perform uniform dispersion of reduction gas by a method wherein a solid gas separator and a downcommer are arranged in juxtaposition to a fluidized bed layer reduction furnace having a window box and the fluidized bed furnace is coupled to the window box through a gas introduction pipe in which an orifice is located. CONSTITUTION:Reduction gas 2 is introduced as main fluidized gas in a fluidized bed reduction furnace 1, charged with an iron ore, from a window box 4 through a plurality of gas introduction pipes 3. A reduction iron ore on which fluidized reduction is applied is separated at the upper part of the furnace away from gas by means of a solid gas separator 5. The reduction ore is fed to the lower part of the furnace through a downcommer 6 as it is circulated and a part of the reduction ore is taken out through a product reduction ore discharge port 7. Through the gas introduction pipe 3 has a plurality of introduction nozzles 3-1-3-3 supported by a support late 12, in this case, an orifice 11 having a pressure loss of not less than 20% is arranged to the nozzles 3-1-3-3. This constitution causes the increase of ventilation resistance during the passage of it through a pipe, and uniform dispersion of reduction gas to the nozzles 3-1-3-3.
    • 7. 发明专利
    • OPERATION METHOD FOR CIRCULATING FLUIDIZED BED REDUCTION APPARATUS
    • JPH04301023A
    • 1992-10-23
    • JP6684991
    • 1991-03-29
    • NIPPON STEEL CORP
    • SUZUKI SATORUKUNITOMO KAZUYAEGASHIRA TATSUHIKO
    • C21B11/00C21B13/00
    • PURPOSE:To avoid increase in energy cost accompanied with pulverization by returning fine powder and particles in fine powdery dust contained in exhaust gas from a reaction fluidized bed to fluidized bed and keeping particle size constitution of the fine powder in fluidized bed ore to the constant. CONSTITUTION:Carrier gas and the exhaust gas of a smelting reduction furnace are introduced from bottom part of a riser 1 to form the fluidized bed of raw material powdery ore 2 charged from upper part. The raw material ore 2 partially reduced by solid-gas reaction, is collected with a first cyclone 3 together with the exhaust gas and returned back to the riser 1 through a downcomer 4 and at the time of coming to the expected reducing condition, this is taken out from a product discharging hole 5. The exhaust gas from the first cyclone 3 is passed through a second cyclone 6 and the dust collected therein is returned back to the downcomer 4 through a recovery circulating passage 7. Successively, the exhaust gas in the second cyclone 6 recovers the fine powder with a high temp. dust collecting device 8, and the fine powder is collected with a distributing device 9 and the fine powder having
    • 9. 发明专利
    • METHOD FOR OPERATING CIRCULATING FLUIDIZED REDUCTION FURNACE OF POWDERY ORE AND REDUCTION FURNACE
    • JPH03100112A
    • 1991-04-25
    • JP23963989
    • 1989-09-14
    • NIPPON STEEL CORP
    • KUNITOMO KAZUYAHAYASHI YOICHIEGASHIRA TATSUHIKOYAMAMOTO TETSUAKI
    • C21B11/02C21B13/00
    • PURPOSE:To preven the variation of powdery ore level in a downtake tube and to improve the working efficiency of a fluidized reduction furnace by directly fitting a supplying device for powdery iron ore to the downtake tube in the circulating fluidized reduction furnace composed of an uptake cylinder and the downtake tube for the powdery iron ore. CONSTITUTION:At the time of pre-reducing the powdery iron ore in the circulating fluidized bed type pre-reduction furnace 10, the powdery iron ore 4 is charged from a lower charging hole 3 in the uptake cylinder 1 and pre-reduced in the solid phase with reducing gas 5 supplied from the lower part in the pre-reduction furnace 10, and the powdery ore separated from gas with a cyclone 6 is descended in the downtake tube 2. The reduced ore is discharged from an outlet 7 and unreducing powdery ore is again returned back in the uptake cylinder 1 and pre-reduced. In this case, when quantity of the circulating powdery ore in the downtake 2 becomes little, the reducing gas 5 blown into the uptake cylinder 1 is caused to flow into the downtake tube 2, and collecting efficiency of the cyclone 6 is reduced and the fluidized bed in the uptake cylinder 1 becomes unstable. Hereby, this condition is detected with a level meter 11, and the powdery ore in a hopper 13 is supplied into the downstream tube 2 from a powdery ore supplying device 9 arranged in the downtake tube 2, and blowby of the reducing gas 5 to the downtake tube 2 is prevented and the operational condition is stabilized.