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    • 3. 发明专利
    • Method for manufacturing single wall carbon nanotube
    • 制造单壁碳纳米管的方法
    • JP2007246309A
    • 2007-09-27
    • JP2006069202
    • 2006-03-14
    • National Institute Of Advanced Industrial & TechnologyNikkiso Co Ltd日機装株式会社独立行政法人産業技術総合研究所
    • YUMURA MORIOOSHIMA SATORUHACHINA JIYUNZOUFUKUMA KAORI
    • C01B31/02
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing carbon nanotubes that facilitates mass-production of single wall carbon nanotubes with a thin diameter. SOLUTION: The method for manufacturing single wall carbon nanotubes is carried out by jetting a source liquid containing a metal component as reversed micelle in a hydrocarbon solvent like fume through a jet nozzle having a plurality of jetting holes having diameters of 0.05 to 0.4 mm into a reaction pipe. The source liquid and hydrogen gas are jetted under conditions satisfying relational formula of Y≥272.43X 2 -580.31X+3272 in a graph representing the flow rate X of the source liquid jetted through the jet holes of a double pipe nozzle as the abscissa and the product ρ×q 2 of the gas density ρ of hydrogen gas jetted though a hydrogen gas jetting pipe and the square of the hydrogen gas flow rate q as the flow rate per unit area of the jetting port of the hydrogen gas jet pipe as the ordinate. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种制造碳纳米管的方法,其有助于大规模生产具有薄直径的单壁碳纳米管。 解决方案:制备单壁碳纳米管的方法是通过喷射具有多个直径为0.05至0.4的喷射孔的喷嘴,将含有金属组分的反应胶束的源液体喷射到烃溶剂如烟气中, mm进入反应管。 源液体和氢气在满足关系式Y≥272.43X 2 -580.31X + 3272的条件下喷射,表示通过喷射孔喷射的源液体的流速X 作为横轴的双管喷嘴和通过氢气喷射管喷射的氢气的气体密度ρ的乘积ρ×q 2 和氢气流量q的平方作为每个流量 作为纵坐标的氢气喷射管的喷射口的单位面积。 版权所有(C)2007,JPO&INPIT
    • 7. 发明专利
    • Method for hydrophilizing carbon nanotube
    • 氢化碳纳米管的方法
    • JP2005119930A
    • 2005-05-12
    • JP2003359098
    • 2003-10-20
    • Nikkiso Co LtdShimizu Corp日機装株式会社清水建設株式会社
    • TANAKA ISAONACHI HIROSHIYAGI JUNICHINAKAMURA TAKUJIURANO SHINJITAZAKI MASAHARUHORIUCHI SUMIOFUKASE YUTAROKIKUCHI TAKAMASAYOSHIDA JUNTAKASE TOSHINORIHACHINA JIYUNZOU
    • B82B3/00C01B31/02C07C37/00C07C39/17C07C51/00C07C63/49
    • PROBLEM TO BE SOLVED: To provide a method for improving the hydrophilicity of carbon nanotubes.
      SOLUTION: A rotor 9 is rotated at an outer circumferential velocity of about 100 m/s through a rotation shaft by an unillustrated driving means in such a state that a first opening/closing valve 3 and a second opening/closing valve 7 are closed. Thereafter, the first opening/closing valve 3 is opened, and carbon nanotubes are charged from a raw material hopper 2 into an impact chamber 5. Subsequently, a hydrophilic substance is charged from the raw material hopper 2 into the impact chamber 5, and the atmosphere in the impact chamber 5 is kept hydrophilic. The first opening/closing valve 3 is then closed, and agitation and mixing treatment is performed for several minutes. During the treatment, the carbon nanotubes collide with blades 10 and the inner wall of a collide ring 11 a number of times while being circulated through a circulation circuit 6. Thereby, a strong mechanical energy is generated on the surface of each carbon nanotube, and the surface of each carbon nanotube chemically reacts with the hydrophilic substance around the surface, and consequently, a hydrophilic functional group is introduced onto the surface of each carbon nanotube.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种改善碳纳米管亲水性的方法。 解决方案:转子9通过未示出的驱动装置通过旋转轴以大约100m / s的外圆周速度旋转,使得第一开/关阀3和第二开/关阀7 关闭。 此后,打开第一打开/关闭阀3,将碳纳米管从原料料斗2装入冲击室5.随后,将亲水物质从原料料斗2装入冲击室5, 冲击室5中的气氛保持亲水性。 然后关闭第一打开/关闭阀3,进行搅拌和混合处理数分钟。 在处理过程中,碳纳米管在循环回路6中循环时多次与叶片10和碰撞环11的内壁碰撞,从而在每个碳纳米管的表面产生强大的机械能, 每个碳纳米管的表面与表面周围的亲水物质发生化学反应,因此,在每个碳纳米管的表面上引入亲水性官能团。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Polluted water purifying system
    • 污水净化系统
    • JP2004049950A
    • 2004-02-19
    • JP2002207230
    • 2002-07-16
    • Nikkiso Co LtdShimizu Corp日機装株式会社清水建設株式会社
    • HACHINA JIYUNZOUHORIUCHI SUMIOTAKE TAKAOASADA MOTOYUKIKAWAGUCHI MASATO
    • C02F1/44B01D36/02B01D63/02C02F1/28C02F1/52
    • PROBLEM TO BE SOLVED: To easily and inexpensively purify polluted water polluted with dioxins etc., on site.
      SOLUTION: The system for purifying the polluted water polluted with hazardous materials such as the dioxins is provided with a hollow fiber membrane treatment apparatus 3, and an activated carbon adsorption apparatus 4 disposed behind the same. The fore stage of the hollow fiber membrane treatment apparatus is provided with a filtering apparatus. The fore stage of the filtering apparatus is provided with a flocculation treatment apparatus 1. The hollow fiber membrane treatment apparatus is constituted by employing a hollow fiber membrane filter packed with hollow fiber membranes in a column and passing water to be treated form the outer side to the inner side of the hollow fiber membranes. The hollow fiber membrane filter is provided with a water pressure gage and a flow meter.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:在现场轻松,廉价地净化二恶英等污染的污水。 解决方案:用于净化有害物质如二恶英污染的污水的系统设置有中空纤维膜处理装置3和设置在其后面的活性炭吸附装置4。 中空纤维膜处理装置的前期设有过滤装置。 过滤装置的前期设置有絮凝处理装置1.中空纤维膜处理装置由在柱中装入中空纤维膜的中空纤维膜过滤器构成,并将外部的待处理水从外侧通入 中空纤维膜的内侧。 中空纤维膜过滤器设有水压计和流量计。 版权所有(C)2004,JPO
    • 9. 发明专利
    • Infection detection method of hepatitis virus and infection detector
    • 感染性肝炎病毒感染检测方法
    • JP2007155376A
    • 2007-06-21
    • JP2005347502
    • 2005-12-01
    • Kitasato GakuenNikkiso Co Ltd学校法人北里学園日機装株式会社
    • IGARASHI KAZUNAHACHINA JIYUNZOUNAGAI TATSUOOKAZAKI TOSHIO
    • G01N33/49G01N15/02G01N33/576
    • PROBLEM TO BE SOLVED: To provide an infection detecting method of a hepatitis virus capable of simply and accurately detecting the infection of the hepatitis virus by setting sample serum to a low temperature state to measure the particle size distribution of colloid particles and detecting the presence of the infection of the hepatitis virus on the basis of the measured particle size distribution, and an infection detector of the hepatitis virus. SOLUTION: The inspection detection method of the hepatitis virus has a process 205 for setting sample serum to a low-temperature state within a temperature range of 0-15°C, a process 206 for irradiating the sample serum with a laser beam, a process 207 for measuring the frequency deviation due to the Doppler effect of the laser beam reflected on scattered by colloid particles subjected to Brownian movement in the sample serum, a process 208 for calculating the particle size distribution of the colloid particles in the low-temperature state by calculating the particle size of the colloid particles related to the Brownian movement speed of the colloid particles from frequency deviation and a process 209 for detecting the infection of the hepatitis virus of the sample serum on the basis of the particle size distribution in the low-temperature state. COPYRIGHT: (C)2007,JPO&INPIT
    • 待解决的问题:提供能够通过将样品血清置于低温状态来简单且准确地检测肝炎病毒感染的肝炎病毒的感染检测方法来测量胶体颗粒的粒度分布并检测 基于所测量的粒度分布,存在肝炎病毒的感染,以及肝炎病毒的感染检测器。 解决方案:肝炎病毒的检查检测方法具有将样品血清置于0-15℃的温度范围内的低温状态的过程205,用于用激光束照射样品血清的方法206 ,用于测量由样品血清中经受布朗运动的胶体颗粒散射反射的激光束的多普勒效应引起的频率偏差的过程207,用于计算低分子量胶体颗粒的粒度分布的方法208, 通过计算与频率偏差相关的胶体粒子的布朗运动速度的胶体粒子的粒径,以及根据样品血清中的粒度分布检测样品血清的肝炎病毒感染的方法209的温度状态 低温状态。 版权所有(C)2007,JPO&INPIT
    • 10. 发明专利
    • Pressure vessel
    • 压力容器
    • JP2008002510A
    • 2008-01-10
    • JP2006170423
    • 2006-06-20
    • Nikkiso Co Ltd日機装株式会社
    • HACHINA JIYUNZOUMATSUNO HISAO
    • F16J13/22F16J13/02
    • PROBLEM TO BE SOLVED: To shorten the time required to open and close a lid of a pressure vessel by simplifying the opening and closing.
      SOLUTION: The pressure vessel 12 comprises a vessel main body 32 having a closed one end of a nearly circular cylinder, and the lid 34 to seal the opening of the vessel main body by being fitted in the cylinder inside of an end at the opening side of the vessel main body 12. The lid 34 is locked with two pins 36 to lock the lid by penetrating the vessel main body and the lid, keeping from the central portion of the lid in the surface intersecting the axis line of the nearly circular cylinder of the vessel main body.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:通过简化打开和关闭来缩短打开和关闭压力容器的盖子所需的时间。 解决方案:压力容器12包括容器主体32,容器主体32具有近似圆柱形的封闭的一端,以及盖34,用于通过将端子中的端部装配在汽缸内部来密封容器主体的开口 容器主体12的开口侧。盖34用两个销钉36锁定,以通过穿透容器主体和盖子来盖住盖子,从与盖子的轴线相交的表面的盖的中心部分保持 船体主体近圆柱体。 版权所有(C)2008,JPO&INPIT