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    • 12. 发明专利
    • System for measuring concentration of small amount of gas
    • 用于测量小量气体浓度的系统
    • JP2003083939A
    • 2003-03-19
    • JP2001281372
    • 2001-09-17
    • Toshiba Corp株式会社東芝
    • UCHIDA YUTAKASAKANO MINA
    • G01N27/64
    • PROBLEM TO BE SOLVED: To measure concentration by accurately exciting only a substance whose concentration is to be measured and reliably ionizing the excited substance whose concentration is to be measured even if a number of substances are contained in a sample.
      SOLUTION: A sample gas is jetted into a vacuum container 3 for thermal expansion. The internal energy of the sample gas is set to be at an extremely low state. At the same time, a dye laser beam with a wavelength of 'λUV' that accurately matches the electron excitation energy of the substance whose concentration is to be measured, and a laser beam with a wavelength of '4ω' for ionizing the excited substance whose concentration is to be measured are set to be a single beam. The beam is applied from a window 6 in the vacuum container 3 into the vacuum container 3, and the substance whose concentration is to be measured and which is contained in the sample gas is ionized.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:即使在样品中含有多种物质的情况下,也可以通过精确地仅激发要测定浓度的物质来测定浓度,并可靠地使待测浓度的被激发物质电离。 解决方案:将样品气体喷射到用于热膨胀的真空容器3中。 样品气体的内部能量被设定为极低的状态。 同时,将与要测量的浓度物质的电子激发能精确地匹配波长为“λUV”的染料激光束和波长为“4ω”的激光束,使激发物质电离 要测量的浓度设定为单光束。 将光束从真空容器3中的窗口6施加到真空容器3中,并且将浓度被测量并包含在样品气体中的物质离子化。
    • 13. 发明专利
    • Magnetic separator
    • 磁力分离器
    • JP2013180255A
    • 2013-09-12
    • JP2012046553
    • 2012-03-02
    • Toshiba Corp株式会社東芝
    • TOSAKA TAIZOSAKANO MINAKADOMA SHIGEKIYAMANASHI ICHIROYAMAZAKI ATSUSHIKIUCHI TOMOAKIOKADA HIDEHIKONAKAYAMA SHIGEO
    • B01D35/06
    • PROBLEM TO BE SOLVED: To provide a magnetic separator with high separation performance.SOLUTION: This magnetic separator includes: a cylindrical column for flowing in water to be treated and flowing out treated water processed internally; a plurality of filters which are arranged vertically to a flow of the water to be treated flown in the column and formed of ceramic materials; an interruption means in which a water passing hole for passing through the water to be treated is formed at the center, and an outer peripheral face comes in contact with an inside wall of the column to interrupt a flow passage of the water to be treated passing between the inside wall of the column and a wire mesh; and a magnet placed at a predetermined position of an outer periphery of the column for applying a magnetic field to the filters.
    • 要解决的问题:提供具有高分离性能的磁选机。解决方案:该磁选机包括:用于在待处理的水中流动并流出内部处理的水的圆柱体; 多个过滤器,垂直于待处理的水流在塔中流动并由陶瓷材料形成; 在中心形成有用于通过待处理水的通水孔的中断装置,外周面与塔的内壁接触,以中断被处理水通过的通道 在柱的内壁和丝网之间; 以及放置在所述列的外周的预定位置处的磁体,用于向所述过滤器施加磁场。
    • 15. 发明专利
    • System and method for thermal decomposition treatment of waste product
    • 废弃物产品热分解处理系统与方法
    • JP2007112879A
    • 2007-05-10
    • JP2005304655
    • 2005-10-19
    • Toshiba Corp株式会社東芝
    • SUGIYAMA HIDEKAZUIMAI TADASHINOMA TAKESHIIMAI KIYOSHISAKANO MINA
    • C09C1/48B09B3/00C01B3/02C10G1/10C10J3/00
    • Y02E50/30
    • PROBLEM TO BE SOLVED: To provide a system for thermal decomposition treatment of waste products, capable of efficiently producing carbon black by using products obtained by thermal decomposition or liquefaction of biomass and the like.
      SOLUTION: The system for thermal decomposition treatment of waste products comprises a liquefaction system 1 comprising a kiln 11 thermally decomposing waste products such as biomass, a liquefaction device 12 cooling the thermally decomposed gas and tar generated in the kiln 11 to condense and liquefy and an oil recovering tank 13 for storing the oil recovered by the liquefaction device 12, and a carbon black producing system 2 composed by serially arranging a carbon black-producing device 21, a bag filter 22, a scrubber 23 and a desulfurizer 24, recovers several oils from the thermally decomposed gas and tar obtained by thermally decomposing waste products such as biomass, introduces the several oils into the carbon black producing device 21 as the material hydrocarbon, and introduces the off gas uncondensed to oil and in the liquefaction device 12 into the carbon black-producing device 21 as a fuel for combustion.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够通过使用通过热分解或液化生物质等获得的产物有效地生产炭黑的废物的热分解处理系统。 解决方案:废物的热分解处理系统包括液化系统1,其包括窑11热分解废物如生物质,液化装置12冷却热分解气体和在窑11中产生的焦油冷凝, 用于储存由液化装置12回收的油的油回收槽13以及通过串联排列炭黑生产装置21,袋式过滤器22,洗涤器23和脱硫器24构成的炭黑生产系统2, 从热分解气体和通过热分解废物等生物质得到的焦油中回收几种油,将多种油引入作为原料烃的炭黑生产装置21中,将未冷凝的废气引入油中并在液化装置12中 作为燃烧用燃料的炭黑制造装置21。 版权所有(C)2007,JPO&INPIT
    • 16. 发明专利
    • Discharge type photocatalyst reactor and discharge type photocatalyst material
    • 放电型光电子反应器和放电型光电材料
    • JP2007029827A
    • 2007-02-08
    • JP2005214632
    • 2005-07-25
    • Toshiba Corp株式会社東芝
    • ASAYAMA MASAHIROSEGAWA NOBORUUCHIDA YUTAKAIMAMURA TAKESHISHIMURA NAOHIKOARAKI KUNIYUKIMIKAMI MAKOTOSAKANO MINA
    • B01J35/02A61L9/00A61L9/20B01D53/86C02F1/32C02F1/72
    • Y02W10/37
    • PROBLEM TO BE SOLVED: To provide a discharge type photocatalyst reactor and a discharge type photocatalyst material enabling improvement of the reaction efficiency of the photocatalyst, in purification including cleaning, deodorization and/or sterilization, by removing target substances, e.g. harmful substances and odorants, contained in a to-be-treated fluid, e.g. air or water, under the action of a photocatalyst excited with discharge light as an exciting light source. SOLUTION: The discharge type photocatalyst reactor is arranged on a passage for a to-be-treated fluid and has a discharge type photocatalyst material 2b containing a light-emitting substance 2d emitting UV light on excitation with electrons and a photocatalyst material 2c, a substrate 2a supporting the discharge type photocatalyst material 2b, an electrode exciting the light-emitting substance 2d and a photocatalyst material 2c by irradiating the discharge type photocatalyst material 2b with electrons and UV generated by discharging, and a source supplying power to the electrode. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种放电型光催化剂反应器和放电型光催化剂材料,其能够提高光催化剂的反应效率,包括清洁,除臭和/或灭菌,通过除去目标物质,例如, 包含在待处理流体中的有害物质和气味剂,例如, 空气或水,在用放电灯激发的光催化剂的作用下作为激发光源。 解决方案:放电型光催化反应器布置在待处理流体的通道上,并且具有包含用电子激发而发射紫外光的发光物质2d的光电催化剂材料2b和光催化剂材料2c ,通过用放电形成的电子和UV照射放电型光催化剂材料2b,支撑放电型光催化剂材料2b的基板2a,激发发光物质2d的电极和光催化剂材料2c,以及向电极供给源 。 版权所有(C)2007,JPO&INPIT
    • 17. 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
    • 18. 发明专利
    • Magnetic separator, and magnetic separation system
    • 磁分离器和磁分离系统
    • JP2011056369A
    • 2011-03-24
    • JP2009207483
    • 2009-09-08
    • Toshiba Corp株式会社東芝
    • TOSAKA TAIZOSAKANO MINAKADOMA SHIGEKIKIUCHI TOMOAKIYAMANASHI ICHIROSUMIYA AKIKOOKADA HIDEHIKONAKAYAMA SHIGEO
    • B03C1/033B03C1/00B03C1/032B03C1/034
    • PROBLEM TO BE SOLVED: To provide a magnetic separator having improved capability of capturing particles. SOLUTION: The magnetic separator 1 separates particles present in a fluid by magnetic force, and includes a tubular member 2 comprising an inner wall 11 comprising a coaxial hollow part 11a formed therein, an outer wall 12 comprising a coaxial hollow part 12a formed therein wherein the inner wall 11 is disposed, and a flow path 5 formed between the inner wall 11 and the outer wall 12 for a fluid to flow therethrough; a magnetic-field generator 3 disposed in the hollow part 11a and comprising a plurality of permanent magnets 16, 17; and a filter member 4 that is disposed outside of the magnetic-field generator 3, extends from the center part of the flow path 5 toward the outer circumference thereof, and includes a magnetic body. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供具有改进的捕获颗粒能力的磁选机。 解决方案:磁选机1通过磁力分离存在于流体中的颗粒,并且包括管状构件2,其包括内壁11,内壁11包括形成在其中的同轴中空部分11a,外壁12包括形成的同轴中空部分12a 其中设置有内壁11,以及形成在内壁11和外壁12之间以使流体流过其中的流路5; 设置在中空部11a中并且包括多个永磁体16,17的磁场发生器3; 并且设置在磁场发生器3的外侧的过滤构件4从流路5的中心部向其外周延伸,并且包括磁性体。 版权所有(C)2011,JPO&INPIT
    • 19. 发明专利
    • Apparatus for treating gas and method for washing the same
    • 用于处理气体的装置及其洗涤方法
    • JP2006124570A
    • 2006-05-18
    • JP2004316682
    • 2004-10-29
    • Toshiba Corp株式会社東芝
    • YOSHIKAWA JUNISAKA ATSUSHISAKANO MINA
    • C10L3/10B01D53/26
    • PROBLEM TO BE SOLVED: To efficiently remove adherent materials adhered within a dehumidifier of an apparatus for treating gas. SOLUTION: The apparatus 1 for treating gas of a waste treatment system for removing a fuel gas from a waste product is provided with a dehumidifier 3 for dehumidifying the fuel gas, a bypass 4b for isolating the dehumidifier 3 upon washing within the dehumidifier 3, a washing liquid 8a for washing adherent materials adhered within the dehumidifier 3, a spraying apparatus 7 provided within the dehumidifier 3 for spraying the washing liquid 8a, a washing liquid tank 8 for supplying the washing liquid 8a to the spraying apparatus 7, and a drain piping 10 for draining the washing liquid 8a within the dehumidifier 3. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了有效地除去附着在用于处理气体的装置的除湿器内的粘附材料。 解决方案:用于处理从废物中除去燃料气体的废物处理系统的气体的装置1设置有用于对燃料气体进行除湿的除湿器3,用于在除湿器内洗涤时分离除湿器3的旁路4b 3,用于洗涤附着在除湿器3内的粘附材料的洗涤液8a,设置在除湿器3内用于喷射洗涤液8a的喷洒装置7,将清洗液8a供给到喷雾装置7的洗涤液罐8, 排水管10,用于排出除湿器3内的清洗液8a。版权所有(C)2006,JPO&NCIPI
    • 20. 发明专利
    • METHOD AND DEVICE FOR PLASMA TREATMENT
    • JP2000257826A
    • 2000-09-22
    • JP5461399
    • 1999-03-02
    • TOSHIBA CORP
    • TANAKA MOTOFUMISAKANO MINA
    • B01J19/08F23G5/00F23G5/10G21F9/30H05B7/148H05H1/26
    • PROBLEM TO BE SOLVED: To provide a plasma treating method and device, which are capable of efficient selective recovering of an element or a compound utilizing the heat current of plasma, simple in the constitution of a facility, easy in the operation, and capable of reducing an operating cost and the like. SOLUTION: A plasma treating device is provided with a reaction furnace 12, introducing a matter to be treated 10 containing two kinds or more of elements or compounds having different properties through the introducing unit 11 of the matter to be treated 10, a plasma torch 13 for forming plasma heat current in the reaction furnace 12, a plasma gas supplying means 14 for supplying plasma gas into the plasma torch 13, and a constituent separating unit 15 for receiving fluid, consisting of the mixture of evaporated matters produced in the reaction furnace 12 and other mixture of other solid, liquid, gas or the mixture of them and selecting to separate at least two kinds or more of elements or compounds in accordance with the kind of respective constituents. In such a plasma treating device, the introducing unit 11 of the matter to be treated 10 is provided with a pre-treatment device 19 for converting the matter to be treated 10, introduced into the reaction furnace 12, into suspended liquid previously, and removing soluble substances from the matter to be treated 10.