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    • 1. 发明授权
    • Nanocarbon producing apparatus
    • 纳米碳生产设备
    • US08557191B2
    • 2013-10-15
    • US13020260
    • 2011-02-03
    • Eiichi SugiyamaKatsuki IdeKazutaka KojoTsuyoshi Noma
    • Eiichi SugiyamaKatsuki IdeKazutaka KojoTsuyoshi Noma
    • B01J8/02D01F9/12D01F9/133
    • B82Y40/00B82Y30/00C01B32/16C01B32/18D01F9/133
    • According to one embodiment, a nanocarbon producing apparatus includes a heating vessel which provides a reducing atmosphere therein, a heating source disposed on an outer circumference of the heating vessel, a hydrocarbon injection nozzle disposed on an upstream side of the heating vessel for spraying hydrocarbon into the heating vessel, and a nanocarbon product discharge nozzle disposed on a downstream side of the heating vessel, wherein a metallic substrate is disposed on an inside surface of the heating vessel and the hydrocarbon is continuously sprayed from the hydrocarbon injection nozzle, effecting a reaction to grow nanocarbon on the metallic substrate, and the grown nanocarbon product is peeled off from the metallic substrate and discharged through the discharge nozzle.
    • 根据一个实施方案,纳米碳制造装置包括其中提供还原气体的加热容器,设置在加热容器的外圆周上的加热源,设置在加热容器的上游侧用于喷射烃的烃喷射嘴 加热容器和设置在加热容器的下游侧的纳米碳产品排出喷嘴,其中金属基底设置在加热容器的内表面上,烃从烃喷射喷嘴连续喷射,进行反应 在金属基材上生长纳米碳,生长的纳米碳产品从金属基材上剥离并通过排出喷嘴排出。
    • 3. 发明授权
    • Nanocarbon generation equipment
    • 纳米碳发电设备
    • US07824631B2
    • 2010-11-02
    • US12045212
    • 2008-03-10
    • Tsuyoshi NomaHidetoshi IbeEiichi SugiyamaTadashi ImaiKazutaka KojoKiyoshi Imai
    • Tsuyoshi NomaHidetoshi IbeEiichi SugiyamaTadashi ImaiKazutaka KojoKiyoshi Imai
    • B01J19/00B01J8/02
    • B82Y30/00B82Y40/00C01B32/15
    • A nanocarbon generation equipment designed such that organic processed materials can be quickly thermally decomposed therein and the decomposed materials are then quenched and liquefied to obtain liquefied materials is disclosed. This equipment comprises thermal reactor for quickly thermally decomposing the organic processed materials, apparatus for recovering the liquefied materials which are liquefied through quenching of thermally decomposed organic processed materials, a rotary furnace to be filled with a reducing atmosphere and loaded with hydrocarbons to be obtained through vaporization of liquefied materials after impurities contained in the liquefied materials are removed, and metal balls made of a metal selected from stainless steel, iron, nickel, chromium and an optional combination thereof, wherein the hydrocarbon introduced into the rotary furnace is decomposed into carbon and hydrogen, thus enabling nanocarbon to be produced through vapor-phase growth.
    • 一种纳米碳发生设备,其设计使得有机处理材料能够快速热分解,然后将分解的材料淬火和液化以获得液化材料。 该设备包括用于快速热分解有机处理材料的热反应器,用于回收通过淬火热分解的有机处理材料液化的液化材料的设备,填充有还原气体的旋转炉,并装载要通过 除去液化材料中含有的杂质之后的液化物质的蒸发,以及由不锈钢,铁,镍,铬及其任意组合的金属制成的金属球,其中引入旋转炉的烃分解成碳和 氢气,从而使得能够通过气相生长生产纳米碳。
    • 6. 发明授权
    • Latent heat accumulation system
    • 潜热蓄热系统
    • US5481882A
    • 1996-01-09
    • US417470
    • 1995-04-05
    • Yutaka WatanabeTakayuki HachimonjiKatsuya YamashitaSanae SekitaTsuyoshi Noma
    • Yutaka WatanabeTakayuki HachimonjiKatsuya YamashitaSanae SekitaTsuyoshi Noma
    • F25D16/00F28D20/02F25C3/00
    • F28D20/025F25D16/00Y02E60/145
    • A latent heat accumulation system uses latent heat for air-conditioning. The latent heat accumulation system includes a tank, supplying section, injecting section, drawing section and collecting section. The tank has a liquid storing section for storing Fluorinate (trade name) in the lower portion thereof, storing water which is cooled by ice via a boundary surface with Fluorinate in the middle portion thereof and storing the ice together with the water in the upper portion thereof. The supplying section supplies the water into the liquid storing section. The injecting section injects Fluorinate cooled to a preset temperature into the water stored in the liquid storing section. The drawing section draws out the water which is stored in the liquid storing section and cooled by the ice to the exterior of the tank as an air-conditioning heat accumulation medium. The collecting section collects a mixed fluid of the water and Fluorinate from the lower portion of the liquid storing section.
    • 潜热积累系统使用潜热进行空调。 潜热蓄积系统包括罐,供给部,注入部,拉伸部和收集部。 该罐具有用于在其下部存储氟化氢(商品名)的液体储存部分,储存在其中间部分经由氟化物的边界面用冰冷却的水,并将冰与水一起储存在上部 其中。 供给部将水供给到液体收容部。 注射部分将冷却至预设温度的氟化钠注入储存在液体存储部分中的水中。 抽出部分抽出储存在液体储存部分中的水,并将其作为空调积聚介质由冰冷却到罐外。 收集部分从液体存储部分的下部收集水和氟化物的混合流体。
    • 7. 发明申请
    • NANOCARBON GENERATION EQUIPMENT
    • 南方发电设备
    • US20080260606A1
    • 2008-10-23
    • US12045212
    • 2008-03-10
    • Tsuyoshi NOMAHidetoshi IbeEiichi SugiyamaTadashi ImaiKazutaka KojoKiyoshi Imai
    • Tsuyoshi NOMAHidetoshi IbeEiichi SugiyamaTadashi ImaiKazutaka KojoKiyoshi Imai
    • B01J8/10
    • B82Y30/00B82Y40/00C01B32/15
    • A nanocarbon generation equipment designed such that organic processed materials can be quickly thermally decomposed therein and the decomposed materials are then quenched and liquefied to obtain liquefied materials is disclosed. This equipment comprises thermal reactor for quickly thermally decomposing the organic processed materials, apparatus for recovering the liquefied materials which are liquefied through quenching of thermally decomposed organic processed materials, a rotary furnace to be filled with a reducing atmosphere and loaded with hydrocarbons to be obtained through vaporization of liquefied materials after impurities contained in the liquefied materials are removed, and metal balls made of a metal selected from stainless steel, iron, nickel, chromium and an optional combination thereof, wherein the hydrocarbon introduced into the rotary furnace is decomposed into carbon and hydrogen, thus enabling nanocarbon to be produced through vapor-phase growth.
    • 一种纳米碳发生设备,其设计使得有机处理材料能够快速热分解,然后将分解的材料淬火和液化以获得液化材料。 该设备包括用于快速热分解有机处理材料的热反应器,用于回收通过淬火热分解的有机处理材料液化的液化材料的设备,填充有还原气体的旋转炉,并装载要通过 除去液化材料中含有的杂质之后的液化物质的蒸发,以及由不锈钢,铁,镍,铬及其任意组合的金属制成的金属球,其中引入旋转炉的烃分解成碳和 氢气,从而使得能够通过气相生长生产纳米碳。