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    • 2. 发明专利
    • Method for thermal cracking treatment and thermal cracking system
    • 热裂解处理和热裂解系统的方法
    • JP2004231856A
    • 2004-08-19
    • JP2003023724
    • 2003-01-31
    • Toshiba Corp株式会社東芝
    • SAKANO MINAIMAI KIYOSHINAKAJIMA MAKOTOHANAWA SHINICHINOMA TAKESHI
    • B09B3/00C10J3/00
    • Y02E50/30
    • PROBLEM TO BE SOLVED: To provide a thermal cracking method and thermal cracking system effective for suppressing the formation of minor components in a reformed gas without giving influence on the main components of the gas by controlling the ratio of oxygen with a flame-retardant oxidizing agent in the reforming of a gas by low-oxygen combustion.
      SOLUTION: A gas is reformed by the low-oxygen combustion in a gas reformer 15 to obtain the reformed gas 24 composed mainly of low-molecular combustible gases. In the above method, the ratio of oxygen atom is increased by the addition of a flame-retardant oxidizing agent such as steam 20 to effectively suppress the formation of minor harmful substances in the reformed gas 24.
      COPYRIGHT: (C)2004,JPO&NCIPI
    • 要解决的问题:提供一种有效抑制重整气体中次要组分形成的热裂解方法和热裂解系统,而不会通过控制氧气与阻燃剂的比例对气体的主要组分产生影响, 通过低氧燃烧在气体重整中的阻燃氧化剂。 解决方案:气体通过气体重整器15中的低氧燃烧而重整,以获得主要由低分子可燃气体组成的重整气体24。 在上述方法中,通过添加诸如蒸汽20的阻燃氧化剂来增加氧原子的比例,以有效地抑制重整气体24中的微小有害物质的形成。版权所有(C)2004 ,JPO&NCIPI
    • 3. 发明专利
    • System for treating object to be treated and method for treating object to be treated
    • 用于处理待处理对象的系统和处理要处理的对象的方法
    • JP2004249203A
    • 2004-09-09
    • JP2003041592
    • 2003-02-19
    • Toshiba Corp株式会社東芝
    • NOMA TAKESHIAMAMIYA TAKASHIIDE KATSUNORIISHIGE TAKAYUKIKIMURA SHINICHIHANAWA SHINICHI
    • B09B3/00C10K1/02C10K1/06
    • Y02E50/30
    • PROBLEM TO BE SOLVED: To provide a system for treating an object to be treated which can cool a thermally decomposed gas generated therein by a cooling liquid sprayed from a multi-fluid nozzle without deteriorating the quality of the thermally decomposed gas. SOLUTION: The system 1 for treating an object to be treated comprises thermal decomposition apparatuses 2 and 3, gas cooling mechanisms 4 and 5 installed in the rear stage of the thermal decomposition apparatuses 2 and 3, and a dust collecting apparatus 6 installed in the rear stage of the gas cooling mechanisms 4 and 5. The gas cooling mechanisms 4 and 5 are provided with a multi-fluid nozzle 12. The multi-fluid nozzle 12 is made to spray a spraying solution for cooling to the thermally decomposed by utilizing an oxygen-free spraying gas (e.g., steam or the like). COPYRIGHT: (C)2004,JPO&NCIPI
    • 要解决的问题:提供一种用于处理待处理物体的系统,其可以通过由多流体喷嘴喷射的冷却液冷却其中产生的热分解气体,而不会降低热分解气体的质量。 解决方案:用于处理待处理物体的系统1包括热分解装置2,3,安装在热分解装置2,3的后级的气体冷却机构4,5,以及安装在集尘装置6上的集尘装置 在气体冷却机构4和5的后级中。气体冷却机构4和5设置有多流体喷嘴12.多流体喷嘴12被制成喷射用于冷却的喷射溶液以由 利用无氧喷雾气体(例如蒸汽等)。 版权所有(C)2004,JPO&NCIPI
    • 5. 发明专利
    • Pyrolytic melting device
    • 热熔胶装置
    • JP2007309643A
    • 2007-11-29
    • JP2007178596
    • 2007-07-06
    • Toshiba Corp株式会社東芝
    • HANAWA SHINICHIIMAI KIYOSHIMATSUI HIROSHI
    • F23G5/00B09B3/00C02F11/12
    • PROBLEM TO BE SOLVED: To provide a pyrolytic melting device capable of making harmless a solid separately-generated form washing drain water for molten gas, by melting it, and enabling reuse of a resource as a slag.
      SOLUTION: The solid is separation-generated by a solid generator 33 through a dewatering process from the washing drain water with which the molten slag containing flyash drawn out from a slag chute 27 is washed. A particle size of the generated solid is regulated into a prescribed particle size by a particle size regulator 42, and the solid regulated into the prescribed particle size is fed into a melting furnace 22 by a feeder 44.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种热解熔融装置,其能够使得熔融气体的排出水的洗涤分离生成无害化,并且能够使作为炉渣的资源被再利用。 解决方案:固体发生器33通过来自洗涤排水的脱水过程分离,从炉渣槽27抽出的含有粉煤灰的熔融炉渣被清洗。 通过粒度调节器42将生成的固体的粒径调节成规定的粒度,并且通过进料器44将调节成规定粒径的固体进料到熔化炉22中。(C) 2008年,日本特许厅和INPIT
    • 6. 发明专利
    • SUPERCONDUCTING MAGNETIC SEPARATOR
    • JPH10312A
    • 1998-01-06
    • JP15696196
    • 1996-06-18
    • TOSHIBA CORP
    • ONISHI YOSHIMICHIKIMURA SHINICHIHANAWA SHINICHIKATSUKI KENJIIWASAKI KEIKO
    • B01D35/06H01F6/00
    • PROBLEM TO BE SOLVED: To lower operating cost and to lessen energy loss on backwashing. SOLUTION: This device is provided with a superconducting electromagnet 2 excited by a DC current-flow fed from a DC power source, a magnetic filter 3 installed in a magnetic space of the superconducting electromagnet 2 and also packed with a filter raw material and magnetized by a magnetic field generated by the superconducting electromagnet 2 and a washer 4 for washing the magnetic filter 3, and is constituted so that by a magnetic inclination generated in the magnetic filter 3, particles to be removed may be caught. In this case, there are provided a permanent current switch 6 installed in parallel with the superconducting electromagnet 2 and closed when an exciting current to the superconducting electromagnet 2 by the DC power source 1 rises to a prescribed value and a first switch installed in mid-way of a DC circuit from the DC power source 1 to the permanent current switch 6 and opened when the exciting current to the superconducting electromagnet 2 by the DC power source 1 rises to the prescribed value to drive the superconducting electromagnet 2 by a permanent current mode using the permanent current switch 6.
    • 8. 发明专利
    • MAGNETICALLY SEPARATING DEVICE
    • JPH11114326A
    • 1999-04-27
    • JP28720597
    • 1997-10-20
    • NISHISHIBA DENKI KKTOSHIBA CORP
    • TANABE MAKOTOHANAWA SHINICHIKIMURA SHINICHIYAMAMORI TAKEOTOCHIO SHINICHIRO
    • B01D35/16B01D35/06
    • PROBLEM TO BE SOLVED: To simplify a device and to make the device compact by rotating a magnetic filter in such a manner that the filter alternately passes through an effective magnetic field and ineffective magnetic field, that magnetic solid suspended substances are adsorbed by a filament in the effective magnetic field and that the magnetic solid suspended substances are removed in the ineffective magnetic field. SOLUTION: A raw water 40 containing magnetic solid suspended substances is introduced by a raw water supply pump 42 through a raw water inlet 36 to a separator container 30. The raw water 40 enters the effective magnetic field generated by an electromagnet 35, where the magnetic solid suspended substances in the raw water 40 are trapped by filaments 32. The water 40 as treated water 46 is discharged through a treated water discharging part 37. The magnetic solid suspended substances trapped by the filaments are carried by rotation of the filament 32 to an ineffective magnetic field region, where the filaments 32 are vibrated by projections 67 to remove the solid suspended substances with a reverse washing water. The removed magnetic solid suspended substances with the reverse washing water are sent from a reverse washing water discharging part 39 through a reverse washing water returning pipe 61 and reserved in a reverse washing waste water tank 52.